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Physics Theses, Dissertations, and Masters Projects

Theses/dissertations from 2023 2023.

Ab Initio Computations Of Structural Properties In Solids By Auxiliary Field Quantum Monte Carlo , Siyuan Chen

Constraining Of The Minerνa Medium Energy Neutrino Flux Using Neutrino-Electron Scattering , Luis Zazueta

Experimental Studies Of Neutral Particles And The Isotope Effect In The Edge Of Tokamak Plasmas , Ryan Chaban

From The Hubbard Model To Coulomb Interactions: Quantum Monte Carlo Computations In Strongly Correlated Systems , Zhi-Yu Xiao

Theses/Dissertations from 2022 2022

Broadband Infrared Microspectroscopy and Nanospectroscopy of Local Material Properties: Experiment and Modeling , Patrick McArdle

Edge Fueling And Neutral Density Studies Of The Alcator C-Mod Tokamak Using The Solps-Iter Code , Richard M. Reksoatmodjo

Electronic Transport In Topological Superconducting Heterostructures , Joseph Jude Cuozzo

Inclusive and Inelastic Scattering in Neutrino-Nucleus Interactions , Amy Filkins

Investigation Of Stripes, Spin Density Waves And Superconductivity In The Ground State Of The Two-Dimensional Hubbard Model , Hao Xu

Partial Wave Analysis Of Strange Mesons Decaying To K + Π − Π + In The Reaction Γp → K + Π + Π − Λ(1520) And The Commissioning Of The Gluex Dirc Detector , Andrew Hurley

Partial Wave Analysis of the ωπ− Final State Photoproduced at GlueX , Amy Schertz

Quantum Sensing For Low-Light Imaging , Savannah Cuozzo

Radiative Width of K*(892) from Lattice Quantum Chromodynamics , Archana Radhakrishnan

Theses/Dissertations from 2021 2021

AC & DC Zeeman Interferometric Sensing With Ultracold Trapped Atoms On A Chip , Shuangli Du

Calculation Of Gluon Pdf In The Nucleon Using Pseudo-Pdf Formalism With Wilson Flow Technique In LQCD , Md Tanjib Atique Khan

Dihadron Beam Spin Asymmetries On An Unpolarized Hydrogen Target With Clas12 , Timothy Barton Hayward

Excited J-- Resonances In Meson-Meson Scattering From Lattice Qcd , Christopher Johnson

Forward & Off-Forward Parton Distributions From Lattice Qcd , Colin Paul Egerer

Light-Matter Interactions In Quasi-Two-Dimensional Geometries , David James Lahneman

Proton Spin Structure from Simultaneous Monte Carlo Global QCD Analysis , Yiyu Zhou

Radiofrequency Ac Zeeman Trapping For Neutral Atoms , Andrew Peter Rotunno

Theses/Dissertations from 2020 2020

A First-Principles Study of the Nature of the Insulating Gap in VO2 , Christopher Hendriks

Competing And Cooperating Orders In The Three-Band Hubbard Model: A Comprehensive Quantum Monte Carlo And Generalized Hartree-Fock Study , Adam Chiciak

Development Of Quantum Information Tools Based On Multi-Photon Raman Processes In Rb Vapor , Nikunjkumar Prajapati

Experiments And Theory On Dynamical Hamiltononian Monodromy , Matthew Perry Nerem

Growth Engineering And Characterization Of Vanadium Dioxide Films For Ultraviolet Detection , Jason Andrew Creeden

Insulator To Metal Transition Dynamics Of Vanadium Dioxide Thin Films , Scott Madaras

Quantitative Analysis Of EKG And Blood Pressure Waveforms , Denise Erin McKaig

Study Of Scalar Extensions For Physics Beyond The Standard Model , Marco Antonio Merchand Medina

Theses/Dissertations from 2019 2019

Beyond the Standard Model: Flavor Symmetry, Nonperturbative Unification, Quantum Gravity, and Dark Matter , Shikha Chaurasia

Electronic Properties of Two-Dimensional Van Der Waals Systems , Yohanes Satrio Gani

Extraction and Parametrization of Isobaric Trinucleon Elastic Cross Sections and Form Factors , Scott Kevin Barcus

Interfacial Forces of 2D Materials at the Oil–Water Interface , William Winsor Dickinson

Scattering a Bose-Einstein Condensate Off a Modulated Barrier , Andrew James Pyle

Topics in Proton Structure: BSM Answers to its Radius Puzzle and Lattice Subtleties within its Momentum Distribution , Michael Chaim Freid

Theses/Dissertations from 2018 2018

A Measurement of Nuclear Effects in Deep Inelastic Scattering in Neutrino-Nucleus Interactions , Anne Norrick

Applications of Lattice Qcd to Hadronic Cp Violation , David Brantley

Charge Dynamics in the Metallic and Superconducting States of the Electron-Doped 122-Type Iron Arsenides , Zhen Xing

Dynamics of Systems With Hamiltonian Monodromy , Daniel Salmon

Exotic Phases in Attractive Fermions: Charge Order, Pairing, and Topological Signatures , Peter Rosenberg

Extensions of the Standard Model Higgs Sector , Richard Keith Thrasher

First Measurements of the Parity-Violating and Beam-Normal Single-Spin Asymmetries in Elastic Electron-Aluminum Scattering , Kurtis David Bartlett

Lattice Qcd for Neutrinoless Double Beta Decay: Short Range Operator Contributions , Henry Jose Monge Camacho

Probe of Electroweak Interference Effects in Non-Resonant Inelastic Electron-Proton Scattering , James Franklyn Dowd

Proton Spin Structure from Monte Carlo Global Qcd Analyses , Jacob Ethier

Searching for A Dark Photon in the Hps Experiment , Sebouh Jacob Paul

Theses/Dissertations from 2017 2017

A global normal form for two-dimensional mode conversion , David Gregory Johnston

Computational Methods of Lattice Boltzmann Mhd , Christopher Robert Flint

Computational Studies of Strongly Correlated Quantum Matter , Hao Shi

Determination of the Kinematics of the Qweak Experiment and Investigation of an Atomic Hydrogen Møller Polarimeter , Valerie Marie Gray

Disconnected Diagrams in Lattice Qcd , Arjun Singh Gambhir

Formulating Schwinger-Dyson Equations for Qed Propagators in Minkowski Space , Shaoyang Jia

Highly-Correlated Electron Behavior in Niobium and Niobium Compound Thin Films , Melissa R. Beebe

Infrared Spectroscopy and Nano-Imaging of La0.67Sr0.33Mno3 Films , Peng Xu

Investigation of Local Structures in Cation-Ordered Microwave Dielectric a Solid-State Nmr and First Principle Calculation Study , Rony Gustam Kalfarisi

Measurement of the Elastic Ep Cross Section at Q2 = 0.66, 1.10, 1.51 and 1.65 Gev2 , YANG WANG

Modeling The Gross-Pitaevskii Equation using The Quantum Lattice Gas Method , Armen M. Oganesov

Optical Control of Multi-Photon Coherent Interactions in Rubidium Atoms , Gleb Vladimirovich Romanov

Plasmonic Approaches and Photoemission: Ag-Based Photocathodes , Zhaozhu Li

Quantum and Classical Manifestation of Hamiltonian Monodromy , Chen Chen

Shining Light on The Phase Transitions of Vanadium Dioxide , Tyler J. Huffman

Superconducting Thin Films for The Enhancement of Superconducting Radio Frequency Accelerator Cavities , Matthew Burton

Theses/Dissertations from 2016 2016

Ac Zeeman Force with Ultracold Atoms , Charles Fancher

A Measurement of the Parity-Violating Asymmetry in Aluminum and its Contribution to A Measurement of the Proton's Weak Charge , Joshua Allen Magee

An improved measurement of the Muon Neutrino charged current Quasi-Elastic cross-section on Hydrocarbon at Minerva , Dun Zhang

Applications of High Energy Theory to Superconductivity and Cosmic Inflation , Zhen Wang

A Precision Measurement of the Weak Charge of Proton at Low Q^2: Kinematics and Tracking , Siyuan Yang

Compton Scattering Polarimetry for The Determination of the Proton’S Weak Charge Through Measurements of the Parity-Violating Asymmetry of 1H(E,e')P , Juan Carlos Cornejo

Disorder Effects in Dirac Heterostructures , Martin Alexander Rodriguez-Vega

Electron Neutrino Appearance in the Nova Experiment , Ji Liu

Experimental Apparatus for Quantum Pumping with a Bose-Einstein Condensate. , Megan K. Ivory

Investigating Proton Spin Structure: A Measurement of G_2^p at Low Q^2 , Melissa Ann Cummings

Neutrino Flux Prediction for The Numi Beamline , Leonidas Aliaga Soplin

Quantitative Analysis of Periodic Breathing and Very Long Apnea in Preterm Infants. , Mary A. Mohr

Resolution Limits of Time-of-Flight Mass Spectrometry with Pulsed Source , Guangzhi Qu

Solving Problems of the Standard Model through Scale Invariance, Dark Matter, Inflation and Flavor Symmetry , Raymundo Alberto Ramos

Study of Spatial Structure of Squeezed Vacuum Field , Mi Zhang

Study of Variations of the Dynamics of the Metal-Insulator Transition of Thin Films of Vanadium Dioxide with An Ultra-Fast Laser , Elizabeth Lee Radue

Thin Film Approaches to The Srf Cavity Problem: Fabrication and Characterization of Superconducting Thin Films , Douglas Beringer

Turbulent Particle Transport in H-Mode Plasmas on Diii-D , Xin Wang

Theses/Dissertations from 2015 2015

Ballistic atom pumps , Tommy Byrd

Determination of the Proton's Weak Charge via Parity Violating e-p Scattering. , Joshua Russell Hoskins

Electronic properties of chiral two-dimensional materials , Christopher Lawrence Charles Triola

Heavy flavor interactions and spectroscopy from lattice quantum chromodynamics , Zachary S. Brown

Some properties of meson excited states from lattice QCD , Ekaterina V. Mastropas

Sterile Neutrino Search with MINOS. , Alena V. Devan

Ultracold rubidium and potassium system for atom chip-based microwave and RF potentials , Austin R. Ziltz

Theses/Dissertations from 2014 2014

Enhancement of MS Signal Processing for Improved Cancer Biomarker Discovery , Qian Si

Whispering-gallery mode resonators for nonlinear and quantum optical applications , Matthew Thomas Simons

Theses/Dissertations from 2013 2013

Applications of Holographic Dualities , Dylan Judd Albrecht

A search for a new gauge boson , Eric Lyle Jensen

Experimental Generation and Manipulation of Quantum Squeezed Vacuum via Polarization Self-Rotation in Rb Vapor , Travis Scott Horrom

Low Energy Tests of the Standard Model , Benjamin Carl Rislow

Magnetic Order and Dimensional Crossover in Optical Lattices with Repulsive Interaction , Jie Xu

Multi-meson systems from Lattice Quantum Chromodynamics , Zhifeng Shi

Theses/Dissertations from 2012 2012

Dark matter in the heavens and at colliders: Models and constraints , Reinard Primulando

Measurement of Single and Double Spin Asymmetries in p(e, e' pi(+/-,0))X Semi-Inclusive Deep-Inelastic Scattering , Sucheta Shrikant Jawalkar

NMR study of paramagnetic nano-checkerboard superlattices , Christopher andrew Maher

Parity-violating asymmetry in the nucleon to delta transition: A Study of Inelastic Electron Scattering in the G0 Experiment , Carissa Lee Capuano

Studies of polarized and unpolarized helium -3 in the presence of alkali vapor , Kelly Anita Kluttz

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Harvard phd theses in physics, 2001-.

BAILEY, STEPHEN JOHN, B.S. (Washington) 1995. A Study of B → J/y K (*)0 X Decays. (Huth)

CHEN, LESTER HAO-LIN, B.S. (Duke) 1995. (Harvard) 1999. Charge-Iimaging Field-Effect Transistors for Scanned Probe Microscopy. (Westervelt)

CHOU, YI, B.S. (National Tsing Hua University) 1988. (National Tsing Hua University) 1990. Developments of EXITE2 and Timing Analysis of Ultra-Compact X-ray Binaries. (Papaliolios/Grindlay)

ERSHOV, ALEXEY, B.S. (Moscow Institute of Physics & Technology) 1996. Beauty Meson Decays to Charmonium. (Feldman)

FOX, DAVID CHARLES, A.B. (Princeton) 1991. (Harvard) 1994. The Structure of Clusters of Galaxies. (Loeb)

FUKUTO, MASAFUMI, B.S. (Oregon) 1994. (Harvard) 1997). Two-Dimensional Structures and Order of Nano-Objects on the Surface of Water: Synchrotron X-ray Scattering Studies. (Pershan)

HILL, MARC, B.S. (Illinois) 1994. Experimental Studies of W-band Accelerator Structures at High Field. (Huth)

KANNAPPAN, SHEILA, A.B. (Harvard) 1991. (Harvard, History of Science) 2001. Kinematic Clues to the Formation and Evolution of Galaxies. (Horowitz)

LAU, CHUN-NING, B.A. (Chicago) 1994. (Harvard) 1997. Quantum Phase Slips in Superconducting Nanowires. (Tinkham)

OSWALD, JOSEPH ANTON, B.S. (Duke) 1992. (Harvard) 1995. Metallo-dielectric Photonic Crystal Filters for Infrared Applications. (Verghese/Tinkham)

SCHAFFER, CHRISTOPHER BRIAN, B.S. (Florida) 1995. Interaction of Femtosecond Laser Pulses with Transparent Materials. (Mazur)

SPRADLIN, MARCUS BENJAMIN, B.A. (Princeton) 1996. (Harvard) 1999. AdS 2 Black Holes and Soliton Moduli Spaces. (Strominger)

WU, CLAUDIA, Diplom (Hannover) 1991. (Harvard) 1995. Femtosecond Laser-Gas-Solid Interactions. (Mazur)

BOZOVIC, DOLORES, B.S. ( Stanford University ) 1995. (Harvard) 1997. Defect Formation and Electron Transport in Carbon Nanotubes. (Tinkham)

BRITTO-PACUMIO, RUTH ALEXANDRA, B.S. (MIT) 1996. (Harvard) 1998. Bound States of Supersymmetric Black Holes. (Strominger)

CACHAZO, FREDDY ALEXANDER, B.S. (Simon Bolivar University) 1996. Dualities in Field Theory from Geometric Transitions in String Theory. (Vafa)

CHOU, YI, B.S. ( National Tsing Hua University ) 1988. ( National Tsing Hua University ) 1990. Developments of EXITE2 and Timing Analysis of Ultra-Compact X-ray Binaries. (Papaliolios/Grindlay)

COLDWELL, CHARLES MICHAEL, A.B. (Harvard) 1992. A Search for Interstellar Communications at Optical Wavelengths. (Horowitz)

DUTTON, ZACHARY JOHN, B.A. (University of California Berkeley) 1996. (Harvard) 2002. Ultra-slow Stopped, and Compressed Light in Bose-Einstein Condensates. (Hau)

FOX, DAVID CHARLES, A.B. ( Princeton ) 1991. (Harvard) 1994. The Structure of Clusters of Galaxies. (Shapiro)

GOEL, ANITA, B.S. (Stanford) 1995. Single Molecule Dynamics of Motor Enzymes Along DNA. (Herschbach/ Wilson)

HALL, CARTER, B.S. (Virginia Polytechnic Institute and State Univ.) 1996. Measurement of the isolated direct photon cross section with conversions in proton-antiproton collisions at sqrt (s) = 1.8 TeV. (Franklin)

JANZEN, PAUL HENRY, B. Sc., (University of Windsor) 1992. (Harvard) 1994. An Experiment to Measure Electron Impact Excitation of Ions that have Metastable States. (Horowitz/Kohl)

KIM, Daniel Young-Joon, AB/AM (Harvard) 1995. Properties of Inclusive B → psi Production. (Wilson/Brandenburg)

LANDHUIS, DAVID PAUL, B.S. (Stanford) 1994. (Harvard) 1997. Studies with Ultracold Metastable Hydrogen. (Gabrielse/Kleppner)  

LAU, CHUN-NING, B.A. ( Chicago ) 1994. (Harvard) 1997. Quantum Phase Slips in Superconducting Nanowires . (Tinkham)

LEE, CHUNGSOK, B.A. ( University of California , Berkeley ) 1995. ( Harvard University ) 2002. Control and Manipulation of Magnetic Nanoparticles and Cold Atoms Using Micro-electromagnets. (Westervelt)

 LUBENSKY, DAVID KOSLAN, A.B. ( Princeton University ) 1994. (Harvard) 1997. Theoretical Studies of Polynucleotide Biophysics. (Nelson)

MATTONI, CARLO EGON HEINRICH, A.B. ( Harvard College ) 1995. (Harvard University ) 1998. Magnetic Trapping of Ultracold Neutrons Produced Using a Monochromatic Cold Neutron Beam. (Doyle)

MCKINSEY, DANIEL NICHOLAS, B.S. (University of Michigan) 1995. (Harvard) 1998. Detecting Magnetically Trapped Neutrons: Liquid Helium As a Scintillator. (Doyle)

OZEL, FERYAL, B.S. (Columbia University) 1996. The Effects of Strong Magnetic and Gravitational Fields on Emission Properties of Neutron Stars. (Narayan)

PAUTOT, SOPHIE, B.S. (University of Bordeaux I and II) 1995. (University of Bordeaux I and II) 1996. Lipids behavior at dodecane-water interface. (Weitz)  

PRASAD, VIKRAM, B. Tech. (Indian Institute of Technology) 1996. ( University of Pennsylvania ) 1999. Weakly interacting colloid-polymer mixtures. (Weitz)

SALWEN, NATHAN KALMAN, A.B. (Harvard) 1994. Non-perturbative Methods in Modal Field Theory. (Coleman)

SCHWARZ, JENNIFER MARIE, B.S., B.A. (University of Maryland) 1994. Depinning with Elastic Waves: Criticality, Hysteresis, and Even Pseudo-Hysteresis. (Fisher)

SHAW, SCOT ELMER JAMES, B.A. (Lawrence University) 1998. Propagation in Smooth Random Potentials. [PDF: ~7.44MB] ( Heller)

SQUIRES, TODD MICHAEL, B.S. (UCLA) 1995. Hydrodynamics and Electrokinetics in Colloidal and Microfluidic Systems. (Fisher/Brenner)

VOLOVICH, ANASTASIA, A.M. (Moscow State) 1998. Holography for Coset Spaces and Noncommutative Solitions. (Strominger)

WEINSTEIN, JONATHAN DAVID, B.S. (Caltech) 1995. (Harvard) 1998. Magnetic Trapping of Atomic Chromium and Molecular Calcium Monohydride. (Doyle)  

 WONG, GLENN PATRICK, B.S. (Stanford) 1993. (Harvard) 1995. Nuclear Magnetic Resonance Experiments Using Laser-Polarized Noble Gas . (Shapiro)

YESLEY, PETER SPOOR, B.S. (MIT) 1995. The Road to Antihydrogen. (Gabrielse)

 *YOUNKIN, REBECCA JANE, A.B. ( Mt. Holyoke ) 1993. (Harvard) 1996. Surface Studies and Microstructure Fabrication Using Femtosecond. (Mazur)

ASHCOM, JONATHAN BENJAMIN, B.S. (Brown University) 1996. (Harvard) 2000. The role of focusing in the interaction of femtosecond laser pulses with transparent materials. (Mazur)

CHAN, IAN HIN-YUN , B.S. ( Sanford University ) 1994. Quantum dot circuits: single-electron switch and few-electron quantum dots . (Westervelt)

CREMERS, JACOB NICO HENDRIK JAN, B.S. (MIT) 1994. (Harvard) 2002. Pumping and Spin-Orbit Coupling in Quantum Dots. (Halperin)

deCARVALHO, ROBERT, B.S. (University of Arizona) 1996. (Harvard) 1999. Inelastic Scattering of Magnetically Trapped Atomic Chromium. (Doyle)

D’URSO, BRIAN RICHARD, B.S. (California Institute of Technology) 1998. Cooling and Self-Excitation of a One-Electron Oscillator. (Gabrielse)

FIETE, GREGORY ALAN, B.S. (Purdue University) 1997. (Harvard) 1999. Theory of Kondo Effect in Nanoscale Systems and Studies of III-V Diluated Magnetic Semiconductors. (Heller)

GABEL, CHRISTOPHER VAUGHN, A.B. (Princeton University) 1996. The speed of the flagellar rotary motor of Escherichia coli varies linearly with protonmotive force. (Berg)

GORDON, VERNITA DIANE, B.S. (Vanderbilt University) 1996. (Harvard) 2001. Measuring and Engineering Microscale Mechanical Responses and Properties of Bio-Relevant Materials. (Weitz)

HAILU, GIRMA, B.S. (Addis Ababa University). (Addis Ababa University) 1992. (Harvard) 1999. Chiral orbifold Construction of Field Theories with Extra Dimensions. (Georgi)

HEADRICK, MATTHEW PETER, B.A. (Princeton University) 1994. (Harvard) 1998. Noncummutative Solitons and Closed String Tachyons. (Minwalla)

HUMPHREY, MARC ANDREW, B.S. (Western Michigan University). 1997 (Harvard) 2000. Precision measurements with atomic hydrogen masers. (Walsworth)

LEPORE, NATASHA, B.S. (University of Montreal) Diffraction and Localization in Quantum Billiards. [Postscript: ~5.8MB] (Heller)

LEROY, BRIAN JAMES, Imaging Coherent Electron Flow Through Semiconductor Nanostructures. [PDF: ~10.17MB] (Westervelt)

LOPATNIKOVA, ANNA, B.S. (MIT) 1997. Spontaneously symmetry-broken states in the quantum Hall regime. (Halperin/Wen)

MADRAK, ROBYN LEIGH, B.A. (Cornell University) 1995 Measurement of the LambdaB Lifetime in the Decay Mode LambdaB-> Jpsi Lambda . (Franklin)

MALONEY, ALEXANDER DEWITT, Time-Dependent Backgrounds of String Theory . [PDF: ~6.73MB] (Strominger)

MAOZ, LIAT, B.S. (Hebrew University) 1995. Supersymmetric Configurations in the Rotating D1-D5 System and PP-Waves. [PDF: ~7.16 MB] (Maldacena/ Strominger)

MARINELLI, LUCA, Laurea ( University of Genova ) 1995. ( Harvard University ) 1997. Analysis of quasiparticles in the mixed state of a d-wave superconductor and NMR in pores with surface relaxation. (Halperin)

REFAEL, GIL, B.S. (Tel Aviv University) 1997. (Harvard) 2001. Randomness, Dissipation, and Quantum Fluctuations in Spin Chains and Mesoscopic Superconductor Arrays. (Fisher/Demler)

SHEN, NAN, B.A. (Rhode Island College) 1996. Photodisruption in biological tissues using femtosecond laser pulses . (Mazur)

TSERKOVNYAK, YAROSLAV, (University of British Columbia) 1999. (Harvard) 2001. Spin and Charge Transfer in Selected Nanostructures. [PDF: ~6.96MB] (Halperin)

VALENTINE, MEGAN THERESA, B.S. (Leigh University) 1997. (University of Pennsylvania) 1999. Mechanical and Microstructural Properties of Biological Materials . [PDF: ~3.5 MB] (Weitz)

VANICEK, JIRI JOSEPH LADISLAV, A.B. (Harvard College). (Harvard) 2000. Uniform semiclassical approximations and their applications . [PDF: 936 KB] (Heller)

WIJNHOLT, MARTIJN PAUL, B.S. (University of Warwick) 1996. Investigations in the physics of solitons in string theory. (Vafa)

ZABOW, GARY, B.S. (University of Cape Town) 1994. Charged-particle optics for neutral particles. (Prentiss)

ZIELINSKI, LUKASZ JOZEF, B.S. (Stanford University) 1997. Restriction and inhomogeneous magnetic fields in the nuclear magnetic resonance study of diffusion. (Halperin/Sen)

ABRAHAM, MATHEW CHEERAN, B.S. (Haverford College) 1997 (Harvard University) 2000. Hot Electron Transpoort and Current Sensing. (Westervelt)

BOWDEN, NATHANIEL SEAN, B.S., M.S. (University of Auckland) 1996. Production of Cold Antihydrogen During the Positron Cooling of Antiprotons. (Gabrielse)

CHANG, SPENCER, B.S. (Stanford University) 1999. (Harvard) 2001. Topics in Little Higgs Physics . [PDF: 467 KB] (Georgi)

DZHOSYUK, SERGEI N., B.S.(Moscow Institute of Physics and Technology)1995.(Moscow Institute of Physics and Technology)1997. M agnetic trapping of neutrons for measurement of the neutron lifetime. (Doyle)

EGOROV, DMITRO MIKHAILOVICH, B.S. (Moscow Institute of Physics and Technology) 1998. Buffer-Gas Cooling of Diatomic Molecules . [PDF: ~4.1 MB] (Doyle)

FIETE, ILA RANI, B.S. (University of Michigan) 1997. (Harvard University) 2000. Learning and coding in biological neural networks . (Fisher/Seung)

GARDEL, MARGARET LISE, B.A. (Brown University) 1998. (Harvard University) 2003. Elasticity of F-actin Networks. (Weitz)

HSU, MING F., A.B. ( Princeton University) 1999. Charged Colloidal Particles in Non-polar Solvents and Self-assembled Colloidal Model Systems . (Weitz)

KING, GAVIN MCLEAN, B.S. (Bates College) 1997 (Dartmouth college) 2001. Probing the Longitudinal Resolution of a Solid State nanopore Microscope with Nanotubes. (Golovchenko)

MANLEY, SULIANA, B.A.(Rice University) 1997. (Harvard University) 2001. Mechanical stability of fractal colloid gels. (Weitz)

MICHNIAK,JR.,ROBERT ALLEN, B.S. (University of Michigan) 1997. (Harvard University) 2001. Enhanced Buffer Gas Loading: Cooling and Trapping of Atoms with Low Effective Magnetic Moments. (Doyle)

MODY, AREEZ MINOO, B.S. (Caltech) 1994. Thermodynamics of ultracold singly charged particles. (Heller)

ODOM, BRIAN CARL, B.S. (Stanford University) 1995. (Harvard University) 1999. Measurement of the Electron g-Factor in a Sub-Kelvin Cylindrical Cavity . (Gabrielse)

OXLEY, PAUL KEVIN, B.A. (Oxford University) 1994. Production of Slow Antihydrogen from Cold Antimatter Plasmas . [PDF: ~5.9 MB](Gabrielse)

ROESER, CHRISTOPHER ALLAN DEWALD, B.A. (University of Chicago) 1998. Ultrafast Dynamics and Optical Control of Coherent Phonons in Tellurium. (Mazur)

SHPYRKO, OLEG GRIGORY, B.S. (Moscow Institute of Physics and Technology) 1995. Experimental X-Ray Studies of Liquid Surfaces. (Pershan)

SON, JOHN SANG WON, B.A. (Columbia University) 1996. Superstring Theory in AdS_3 and Plane Waves . [PDF: ~450 KB](Minwalla)

ZELEVINSKY, TANYA, S.B. (MIT) 1999. (Harvard University) 2001. Helium 2^3 P Fine Structure Measurement in a Discharge Cell. (Gabrielse)

ZUMBÜHL, DOMINIK MAX, Diploma, M.S. (Swiss Federal Institute of Technology), 1998. Coherence and Spin in GaAs Quantum Dots . [PDF: ~2.7 MB] (Marcus)

ANDRÉ, AXEL PHILIPPE, M.S. (Imperial College) 1997. (HarvardUniversity) 1999. Nonclassical States of Light and Atomic Ensembles: Generation and New Applications. (Lukin)

BIERCUK, MICHAEL JORDAN, Local Gate Control in Carbon Nanotube Quantum Devices. (Marcus)

CHEN, HAOYU HENRY, (University Maryland) 1998. (Harvard University) 2000. Surfaces in Solid Dynamics and Fluid Statics . [PDF: ~2.5 MB] (Brenner)

CONRAD, JACINTA CARMEL, S.B. (University of Chicago) 1999. ( Harvard University) 2002. Mechanical Response and Dynamic Arrest in Colloidal Glasses and Gels. (Weitz)

DASGUPTA, BIVASH R., B.S.C. (Presidency College) 1995. (Indian Institute of Technology) 1997. Microrheology and Dynamic Light Scattering Studies of Polymer Solutions. (Weitz)

HANCOX, CINDY IRENE, B.A. (University of California, Berkeley) 1997. ( Harvard University) 2002. Magnetic trapping of transition-metal and rare-earth atoms using buffer-gas loading. (Doyle)

HOUCK, ANDREW A., B.S.E. (Princeton University) 2000. Novel Techniques Towards Nuclear Spin Detection. (Marcus/Chuang)

LEE, HAK-HO, B.S. (Seoul National University) 1998. Microelectronic/Microfluidic Hybrid System for the Manipulation of Biological Cells. (Westervelt).

NEITZKE, ANDREW M., A.B. (Princeton University) 1998. Toward a Nonperturbative Topological String. (Vafa)

PODOLSKY, DANIEL, B.S. ( Stanford University) 1998. (Harvard University) 2000. Interplay of Magnetism and Superconductivity in Strongly Correlated Electron Systems. (Demler)  

RAPPOCCIO, SALVATORE ROCCO, B.A. (Boston University ) 2000. Measurement of the ttbar Production Cross Section in ppbar Collisions at sqrt (s) = 1.96 TeV. (Foland)

SPECK, ANDREW J., (Williams College) 2000. (Harvard) 2002. Two Techniques Produce Slow Antihydrogen . [PDF: ~9.2 MB] (Gabrielse)

TEE, SHANG YOU, B.S. ( Columbia University) 1995. (Stevens Institute of Technology) 1997. Velocity Fluctuations in Sedimentation and Fluidized Beds. (Weitz)

THOMPSON, DAVID MATTOON, (Yale) 1999 B.S./M.S. Holography and Related Topics in String Theory . [PDF: ~440 KB] (Strominger)

ZHU, CHENG, B.S. ( Tsinghua University) 1996. (Chinese Science and Technology University) 1997. Gas phase atomic and molecular process . (Lukin/Dalgarno)

BABICH, DANIEL MICHAEL, A.B. ( Princeton University) 2002. ( Harvard University) 2005. Cosmological Non-Gaussianity and Reionization . (Loeb)

BARNETT, RYAN LEE, B.S. ( Ohio State University) 2000. ( Harvard University) 2002. Studies of Strongly correlated Systems: From First Principles Computations to Effective Hamiltonians and Novel Quantum Phases. (Demler)

BOWLES, ANITA MARIE, B.S. ( University of Colorado) 1996. ( Harvard University) 1998. Stress Evolution in Thin Films of a Polymer . (Weitz/Spaepen)

CHIJIOKE, AKOBUIJE DOUGLAS EZIANI, B.S.E. ( Duke University) 1996. (Massachusetts Institute of Technology) 1998. Infrared absorption of compressed hydrogen deuteride and calibration of the ruby pressure gauge . [PDF: ~2.6 MB](Silvera)  

CYRIER, MICHELLE CHRISTINE, B.S. ( University of California , Berkeley) 2000. Physics From Geometry: Non-Kahler Compactifications, Black Rings and dS/CFT. (Strominger)

DESAI, MICHAEL MANISH, B.A. ( Princeton University ) 1999. ( University of Cambridge ) 2000. Evolution in Large Asexual Populations. (Murray/Fisher)

EISAMAN, MATTHEW D, A.B. (Princeton) 2000. (Harvard University) 2004. Generation, Storage and Retrieval of Nonclassical States of Light Using Atomic Ensembles . [PDF: ~7 MB] (Lukin)

HOLLOWAY, AYANA TAMU, A.B. ( Princeton University) 1998. The First Direct Limit on the t Quark Lifetime. ( Franklin)

HOWARD, ANDREW WILLIAM, S.B. (Massachusetts Institute of Technology) 1998. (Harvard University) 2001. Astronomical Searches for Nanosecond Optical Pulses. (Horowitz)

HUANG, JIAN, BS (Jilin University, P.R.China)1998. Theories of Imaging Electrons in Nanostructures . [PDF: ~8.4 MB] (Heller)

JONES, GREGORY CHAPMAN, B.S. (University of Missouri, Columbia) 2001. Time-dependent solutions in gravity . (Strominger)

KILIC, CAN, B.S. ( Bogazici University) 2000. Naturalness of Unknown Physics: Theoretical Models and Experimental Signatures. (Arkani-Hamed)  

 LAKADAMYALI, MELIKE, B.S. ( University of Texas , Austin ) 2001. Real-Time Imaging of Viral Infection and Intracellular Transport in Live Cells. (Zhuang)

MAHBUBANI, RAKHI, MSci (University of Bristol) 2000. Beyond the Standard Model: The Pragmatic Approach to the Gauge Hierarchy Problem . [PDF: ~1.5 MB] (Arkani-Hamed)

MARSANO, JOSEPH DANIEL, B.S. (University of Michigan) 2001. (Harvard University) 2004. The Phase Structure of Yang-Mills Theories and their Gravity Duals. (Minwalla)

NGUYEN, SCOTT VINH, B.S. (University of Texan, Austin) 2000. Buffer gas loading and evaporative cooling in the multi-partial-wave regeime. (Doyle)  

PAPADODIMAS, KYRIAKOS, B.A. ( University of Athens ) 2000. Phase Transitions in Large N Gauge Theories and String Theory Duals. (Minwalla)

PARROTT, ROBERT ELLIS, B.A. (Dartmouth College) 1997. (Dartmouth College) 1999. Topics in Electron Dynamics in Moderate Magnetic Fields . (Heller)  

POTOK, RONALD MICHAEL, B.S. ( University of Texas Austin) 2000. Probing Many Body Effects in Semiconductor Nanostructures. (Goldhaber-Gordon/Marcus)

RUST, MICHAEL JOSEPH, B.S. ( Harvey Mudd College ). Fluorescence Techniques for Single Virus Particle Tracking and Sub-Diffraction Limit Imaging. (Zhuang)

SAGE, JENNIFER NICOLE FUES, B.A. ( Washington University ) 1997. ( Harvard University ) 2000. Measurements of Lateral Boron Diffusion in Silicon and Stress Effects on Epitaxial Growth . (Aziz/Kaxiras)

TAYLOR, JACOB MASON, A.B. ( Harvard College ) 2000. Hyperfine Interactions and Quantum Information Processing in Quantum Dots. (Lukin)

THALER, JESSE KEMPNER, S.B. (Brown University). ( Harvard University) 2004. Symmetry Breaking at the Energy Frontier . (Arkani-Hamed)

THAMBYAHPILLAI, SHIYAMALA NAYAGI, M.S. (Imperial College) 1999. Brane Worlds and Deconstruction. (Randall)

VAISHNAV, JAY Y., B.S. (University of Maryland) 2000. ( Harvard University) 2002. Topics in Low Energy Quantum Scattering Theory. [PDF:  ~3.8 MB] (Heller)

VITELLI, VINCENZO, B.S. (Imperial College) 2000. Crystals , Liquid Crystals and Superfluid Helium on Curved Surfaces. (Nelson)  

WALKER, DEVIN GEORGE EDWARD, B.S. (Hampton University) 1998. ( Harvard University ) 2001. Theories on the Origin of Mass and Dark Matter. (Arkani-Hamed/Georgi)

WHITE, OLIVIA LAWRENCE, B.S. ( Stanford University ) 1997. Towards Real Spin Glasses: Ground States and Dynamics. (Fisher)

YIN, XI, B.S. (University of Science and Technology of China) 2001. Black Holes, Anti de Sitter Space, and Topological Strings. (Strominger)

YANG, LIANG, B.S. (Yale University) 1999. ( Harvard University) 2002. Towards Precision Measurement of the Neutron Lifetime using Magnetically Trapped Neutrons. (Doyle)

YAVIN, ITAY, B. Sc. (York University, Ontario) 2002. Spin Determination at the Large Hadron Collider. [PDF: ~662 KB] (Arkani-Hamed)

CHILDRESS, LILIAN ISABEL, B.A. (Harvard College) 2001. Coherent manipulation of single quantum systems in the solid state . (Lukin)

CLARK, DAMON ALISTAIR Biophysical Analysis of Thermostatic Behavior in C. elegans . (Samuel) 

ERNEBJERG, MORTEN, MPhys (University of Oxford) 2002. Field Theory Methods in Two-Dimensional and Heterotic String Theories . (Strominger)

FARKAS, DANIEL MARTIN, B.S. (Yale University) 2000. An Optical Reference and Frequency Comb for Improved Spectroscopy of Helium . (Gabrielse)

GINSBERG, NAOMI SHAUNA, B.A. (University of Toronto) 2000. (Harvard University) 2002. Manipulations with spatially compressed slow light pulses in Bose-Einstein condensates. (Hau)

HOFFMAN, LAUREN K., B.S. (California Institute of Technology) 2002. Orbital Dynamics in Galaxy Mergers . (Loeb)

HUANG, LISA LI FANG, B.S. (UCLA) 1999. Black Hole Attractors and Gauge Theories . (Strominger)

HUNT, THOMAS PETER, B.S. (Stanford University) 2000. Integrated Circuit / Microfluidic Chips for Dielectric Manipulation . (Westervelt)

IMAMBEKOV, ADILET, B.S. (Moscow Institute of Physics and Technology) 2002. Strongly Correlated Phenomena with Ultracold Atomic Gases . (Demler)

JAFFERIS, DANIEL LOUIS, B.S. (Yale) 2001. Topological String Theory from D-Brane Bound States . (Vafa)

JENKS, ROBERT A., B.A. (Williams College) 1998. Mechanical and neural representations of tactile information in the awake behaving rat somatosensory system . (Stanley/Weitz)

LEBEDEV, ANDRE, B.S. (University of Virginia) 1999. Ratio of Pion Kaon Production in Proton Carbon Interactions . (Feldman) 

LIU, JIAYU, B.S. (Nanjing University of China) 2002. (Harvard) 2004. Microscopic origin of the elasticity of F-actin networks . (Weitz)

MATHEY, LUDWIG GUENTER, Vordiplom (University of Heidelberg) 1998. Quantum phases of low-dimensional ultra-cold atom systems. (Castro-Neto/Halperin)

MAXWELL, STEPHEN EDWARD Buffer Gas Cooled Atoms and Molecules: Production, Collisional Studies, and Applications. (Doyle)

MO, YINA, B.S. (University of Science and Technology China) 2002. Theoretical Studies of Growth Processes and Electronic Properties of Nanostructures on Surfaces. (Kaxiras)

PARUCHURI, SRINIVAS S., B. S. (Cornell) 2000. (Harvard University) 2002. Deformations of Free Jets . (Brenner//Weitz)

QIAN, JIANG Localization in a Finite Inhomogeneous Quantum Wire and Diffusion through Random Spheres with Partially Absorbing Surfaces. (Halperin)

RITTER, WILLIAM GORDON, B.A. (University of Chicago) 1999. Euclidean Quantum Field Theory: Curved Spacetimes and Gauge Fields. (Jaffe)

SARAIKIN, KIRILL ANATOLYEVICH, B.S. (Moscow Institute for Physics and Technology) 1999. Black Holes, Entropy Functionals, and Topological Strings. (Vafa)

SCHULZ, ALEXIA EIRINN, B.A. (Boston University ) 1998. (Harvard University) 2000. Astrophysical Probes of Dark Energy. (White/Huth)

SCHUSTER, PHILIP CHRISTIAN, S.B. (Massachusetts Institute of Technology) 2003. ( Harvard University ) 2006. Uncovering the New Standard Model at the LHC . (Arkani-Hamed)

SEUN, SIN MAN, B.A. (Smith College) 2000.  B.E. (Dartmouth College) 2000. Measurement of p-K Ratios from the NuMI Target . (Feldman)

SHERMAN, DANIEL JOSEPH, B.A. (University of Pennsylvania ) 2001. Measurement of the Top Quark Pair Production Cross Section with 1.12 fb -1 of pp Collisions at sqrt (s) = 1.96 TeV. ( Franklin )

SIMONS, AARON, B.S. (California Institute of Technology) 2002. Black Hole Superconformal Quantum Mechanics. (Strominger)

SLOWE, CHRISTOPHER BRIAN, AB/AM (Harvard University). Experiments and Simulations in Cooling and Trapping of a High Flux Rubidium Beam. (Hau)

STRIEHL, PIERRE SEBASTIAN, Diploma (University of Heidelberg) 2004. A high-flux cold-atom source for area-enclosing atom interferometry. (Prentiss)

TORO, NATALIA, S.B. (Massachusetts Institute of Technology) 2003. Fundamental Physics at the Threshold of Discovery . (Arkani-Hamed) 

WISSNER-GROSS, ALEXANDER DAVID, S.B. (Massachusetts Institute of Technology) 2003. (Harvard University ) 2004. Physically Programmable Surfaces. (Kaxiras)

WONG, WESLEY PHILIP, B.S. (University of British Columbia) 1999. Exploring single-molecule interactions through 3D optical trapping and tracking: from thermal noise to protein refolding . (Evans/Nelson)

ZAW, INGYIN, B.A. (Harvard College) 2001.  (Harvard University) 2003. Search for the Flavor Changing Neutral Current Decay t → qZ in  pp Collisions at √s = 1.96 TeV. (Franklin)

BRAHMS, NATHANIEL CHARLES, Sc.B. (Brown University) 2001. Trapping of 1 μ β Atoms Using Buffer Gas Loading . (Doyle, Greytak)

BURBANK, KENDRA S., B.A. (Bryn Mawr College) 2000. (Harvard University) 2004. Self-organization mechanisms in the assembly and maintenance of bipolar spindles. (Fisher/Mitchison)

CAMPBELL, WESLEY C., B.S. (Trinity University) 2001. Magnetic Trapping of Imidogen Molecules . (Doyle)

CHAISANGUANTHUM, KRIS SOMBOON, B.S. (Harvard University ) 2001. An Enquiry Concerning Charmless Semileptonic Decays of Bottom Mesons . (Morii)

CHANG, DARRICK, B.S. (Stanford University) 2001. Controlling atom-photon interactions in nano-structured media. (Lukin)

CHOU, JOHN PAUL, A.B. (Princeton University) 2002. (Harvard University) 2006. Production Cross Section Measurement using Soft Electron Tagging in pp Collisions at √s  = 1.96 TeV . (Franklin)

DEL MAESTRO, ADRIAN GIUSEPPE, B.S. (University of Waterloo) 2002,  (University of Waterloo) 2003. The Superconductor-Metal Quantum Phase Transition in Ultra-Narrow Wires . (Sachdev)

DI CARLO, LEONARDO, B.S. (Stanford University) 1999. (Stanford University) 2000. Mesocopic Electronics Beyond DC Transport . (Marcus)

DUNKEL, EMILY REBECCA, B.S. (University of California Los Angeles) 2001. Quantum Phenomena in Condensed Phase Systems . (Sachdev/Coker)

FINKLER, ILYA GRIGORYEVICH, B.S. (Ohio State University) 2001. Nonlinear Phenomena in Two-Dimensional and Quasi-Two-Dimensional Electron Systems. (Halperin)

FITZPATRICK, ANDREW LIAM, B.S. (University of Chicago) 2004. (Harvard University) 2005. Broken Symmetries and Signatures . (Randall)

GARG, ARTI, A.B., B.S. (Stanford University) 2000. (Stanford University) 2001. (University of Washington) 2002. Microlensing Candidate Selection and Detection Efficiency for the Super MACHO Dark Matter Search . (Stubbs)

GERSHOW, MARC HERMAN, B.S. (Stanford University) 2001. Trapping Single Molecules with a Solid State Nanopore . (Golovchenko)

GRANT, LARS, B.S. (McGill University) 2001. Aspects of Quantization in AdS/CFT . (Vafa/Minwalla)

GUICA, MONICA MARIA, B.A. (University of Chicago) 2003. Supersymmetric Attractors, Topological Strings, and the M5-Brane CFT . (Strominger)

HANNEKE, DAVID ANDREW, B.S. (Case Western) 2001. (Harvard University) 2003. Cavity Control in a Single-Electron Quantum Cyclotron: An Improved Measurement of the Electron Magnetic Moment. (Gabrielse) 

HATCH, KRISTI RENEE, B.S. (Brigham Young University) 2004 Probing the mechanical stability of DNA by unzipping and rezipping the DNA at constant force. (Prentiss)

HOHLFELD, EVAN BENJAMIN, B.S. (Stanford University) 2001. Creasing, Point-bifurcations, and the Spontaneous Breakdown of Scale-invariance . (Weitz/Mahadevan)

KATIFORI, ELENI, Ptichion (University of Athens) 2002.  (Harvard University) 2004. Vortices, rings and pollen grains: Elasticity and statistical physics in soft matter .  (Nelson)

LAPAN, JOSHUA MICHAEL, B.S. (Massachusetts Institute of Technology) 2002.  (Harvard University) 2006. Topics in Two-Dimensional Field Theory and Heterotic String Theory .  (Strominger)

LE SAGE, DAVID ANTHONY, B.S. (University of California Berkeley) 2002. First Antihydrogen Production within a Combined Penning-Ioffe Trap . (Gabrielse)

LI, WEI, B.S. (Peking University) 1999. (Peking University) 2002. Gauge/Gravity Correspondence and Black Hole Attractors in Various Dimensions . (Strominger)

LU, PETER JAMES, B.A. (Princeton University) 2000.  (Harvard University) 2002. Gelation and Phase Separation of Attractive Colloids . (Weitz)

MUNDAY, JEREMY NATHAN, B.S. (Middle Tennessee State University) 2003.  (Harvard University) 2005. Attractive, repulsive, and rotational QED forces: experiments and calculations . (Hau/Capasso)

RAJU, SUVRAT, B.S. (St. Stephen’s College) 2002.  (Harvard University) 2003. Supersymmetric Partition Functions in the AdS/CFT Conjecture . (Arkani-Hamed/Denef/Minwalla)

RISTROPH, TRYGVE GIBBENS, B.S. (University of Texas at Austin) 1999. Capture and Ionization Detection of Laser-Cooled Rubidium Atoms with a Charged Suspended Carbon Nanotube . (Hau)

SVACHA, GEOFFRY THOMAS, B.S. (University of Michigan) 2002. Nanoscale nonlinear optics using silica nanowires . (Mazur)

TURNER, ARI M., B.A. (Princeton University) 2000. Vortices Vacate Vales and other Singular Tales . (Demler)

BAUMGART, MATTHEW TODD, B.S. (University of Chicago) 2002.  The Use of Effective Variables in High Energy Physics . (Georgi/Arkani-Hamed)

BOEHM, JOSHUA ADAM ALPERN, B.S.E. (Case Western Reserve University) 2003. (Harvard University) 2005. A Measurement of Electron Neutrino Appearance with the MINOS Experimen t. (Feldman)

CHEUNG, CLIFFORD WAYNE, B.S. (Yale University) 2004. (Harvard University) 2006. From the Action to the S-Matrix . (Georgi/Arkani-Hamed)

DORET, STEPHEN CHARLES B.A. (Williams College) 2002, A.M. (Harvard University) 2006. A buffer-gas cooled Bose-Einstein condensate . (Doyle)

FALK, ABRAM LOCKHART, B.A. (Swarthmore College) 2003. (Harvard University) 2004. Electrical Plasmon Detection and Phase Transitions in Nanowires . (Park)

HAFEZI, MOHAMMAD, (Sharif University of Technology, Tehran - Ecole Polytechnique, Paris) 2003. (Harvard University) 2005, Strongly interacting systems in AMO physics . (Lukin)

HECKMAN, JONATHAN JACOB, A.B. (Princeton University) 2004. (Harvard University) 2005 F-theory Approach to Particle Physics . (Vafa)

HICKEN, MALCOLM STUART, B.S. (Brigham Young University) 1999. (Harvard University) 2001. Doubling the Nearby Supernova Type Ia Sample . (Stubbs/Kirshner)

HOHENSEE, MICHAEL ANDREW, B.A. (New York University) 2002. (Harvard University) 2004. Testing Fundamental Lorentz Symmetries of Light . (Walsworth)

JIANG, LIANG, B.S. (California Institute of Technology) 2004.  T owards Scalable Quantum Communication and Computation: Novel Approaches and Realizations . (Lukin)

KAPLAN, JARED DANIEL, B.S. (Stanford University) 2005. Aspects of Holography . (Georgi/Arkani-Hamed)

KLEIN, MASON JOSEPH, B.S. (Calvin College) 2002. Slow and Stored Light in Atomic Vapor Cells . (Walsworth)

KRICH, JACOB JONATHAN, B.A. (Swarthmore College) 2000, MMath (Oxford University) 2003. (Harvard University) 2004. Electron and Nuclear Spins in Semiconductor Quantum Dots . (Halperin)

LAHIRI, SUBHANEIL, M.A. (Oxford University) 2003. Black holes from fluid mechanics. (Yin/Minwalla)

LIN, YI-CHIA, B.S. (National Taiwan Normal University) 1999. (National Tsing Hua University) 2001. Elasticity of Biopolymer Networks. (Weitz)

LUO, LINJIAO, B.S. (University of Science and Technology China) 2003. Thermotactic behavior in C. elegans and Drosophila larvae. (Samuel)

PADI, MEGHA, B.S. (Massachusetts Institute of Technology) 2003. A Black Hole Quartet: New Solutions and Applications to String Theory. (Strominger)

PASTRAS, GEORGIOS, DIPLOMA (University of Patras) 2002. (Harvard University) 2004. Thermal Field Theory Applications in Modern Aspects of High Energy Physics.  (Denef/Arkani-Hamed)

PEPPER, RACHEL E., B.S. (Cambridge) 2004. Splashing, Feeding, Contracting: Drop impact and fluid dynamics of Vorticella (Stone)

SHAFEE, REBECCA, B.S. (California Institute of Technology) 2002. (Harvard University) 2004. Measuring Black Hole Spin. (Narayan/McClintock)

WANG, CHRISTINE YI-TING, B.S. (National Taiwan University) 2002. (Harvard University) 2004. Multiode dynamics in Quantum Cascade Lasers: from coherent instability to mode locking. (Hoffman/Capasso)

ZHANG, YIMING, B.S. (Peking University) 2003. (Harvard University) 2006. Waves, Particles, and Interactions in Reduced Dimensions . (Marcus)

BARTHEL, CHRISTIAN, Diploma (University of Kaiserslautern) 2005. Control and Fast Measurement of Spin Qubits . (Marcus)

CAVANAUGH, STEVEN, B.S. (Rutgers College) 2005. (Harvard University) 2006. A Measurement of Electron Neutrino Appearance in the MINOS Experiment after Four Years of Data . (Feldman)

CHERNG, ROBERT, WEN-CHIEH, B.S. (Massachusetts Institute of Technology) 2004. Non-Equilibrium Dynamics and Novel Quantum Phases of Multicomponent Ultracold Atoms . (Demler)

FOLETTI, SANDRA ELISABETTA, Diploma (Federal Institute of Technology Zurich) 2004. Manipulation and Coherence of a Two-Electron Logical Spin Qubit Using GaAs Double Quantum Dots . (Yacoby)

GIRASH, JOHN ANDREW, B.S. (University of Western Ontario) 1990. (University of Western Ontario) 1993. A Fokker-Planck Study of Dense Rotating Stellar Clusters . (Stubbs/Field)

GOODSELL, ANNE LAUREL, B.A. (Bryn Mawr College) 2002. (Harvard University) 2004. Capture of Laser-Cooled Atoms with a Carbon Nanotube . (Hau)

GORSHKOV, ALEXEY VYACHESLAVOVICH, A.B. (Harvard College) 2004. (Harvard University) 2006. Novel Systems and Methods for Quantum Communication, Quantum Computation, and Quantum Simulation . (Lukin)

GUISE, NICHOLAS DAMIEN SUN-WO, B.S. (California Institute of Technology) 2003. Spin-Flip Resolution Achieved with a One-Proton Self-Excited Oscillator. (Gabrielse)

HARTMAN, THOMAS EDWARD, A.B. (Princeton University) 2004. Extreme Black Hole Holography. (Strominger)

HIGH, FREDRICK WILLIAM, B.A. (University of California Berkeley) 2004. The Dawn of Wide-Field Sunyaev-Zel’dovich Cluster Surveys: Efficient Optical Follow-Up. (Stubbs)

HOOGERHEIDE, DAVID PAUL, B.S. (Western Michigan University) 2004. Stochastic Processes in Solid State Nanoporers. (Golovchenko)

HUMMON, MATTHEW TAYLOR, B.A. (Amherst College) 2002, (Harvard University) 2005. Magnetic trapping of atomic nitrogen and cotrapping of NH. (Doyle)

KATS, YEVGENY, B.S. (Bar-Ilan University) 2003. (Bar-Ilan University) 2005. Physics of Conformal Field Theories. (Georgi/Arkani-Hamed)

KOROLEV, KIRILL SERGEEVICH, B.S. (Moscow Institute of Physics and Technology) 2004. Statistical Physics of Topological Emulsions and Expanding Populations. (Nelson)

LAIRD, EDWARD ALEXANDER, M.Phys (University of Oxford) 2002. (Harvard University) 2005. Electrical Control of Quantum Dot Spin Qubits . (Marcus)

LAROCHELLE, PHILIPPE, B.S. (Massachusetts Institute of Technology) 2003. Machines and Methods for Trapping Antihydrogen. (Gabrielse)

LI, GENE-WEI, B.S. (National Tsinghua University) 2004. Single-Molecule Spatiotemporal Dynamics in Living Bacteria. (Nelson/Xie)

MAZE RIOS, JERONIMO, B.S. (Pont Catholic University), 2002. (Pont Catholic University) 2004. Quantum Manipulation of Nitrogen-Vacancy Centers in Diamond: from Basic Properties to Applications. (Lukin)

PATTERSON, DAVID, A.B. (Harvard College) 1997. Buffer Gas Cooled Beams and Cold Molecular Collisions. (Doyle)  

PENG, AMY WAN-CHIH, B.Sc. (University of Auckland), (Australian National University) 2005. Optical Lattices with Quantum Gas Microscope . (Greiner)

QI, YANG, B.S. (Tsinghua University) 2005. Spin and Charge Fluctuations in Strongly Correlated Systems . (Sachdev)

ROJAS, ENRIQUE ROBERTSON, B.A. (University of Pennsylvania) 2003. The Physics of Tip-Growing Cells. (Nelson/Dumais)

SEO, JIHYE, B.S. (Korea Adv. Inst. of Science & Technology) 2003. (Harvard University) 2010. D-Branes, Supersymmetry Breaking, and Neutrinos . (Vafa)

SIMON, JONATHAN, B.S. (California Institute of Technology) 2004. Cavity QED with Atomic Ensembles. (Lukin/Vuletic)

SLATYER, TRACY ROBYN, Ph.B. (Australian National University) 2005. (Harvard University) 2008. Signatures of a New Force in the Dark Matter Sector. (Finkbeiner)

TAFVIZI, ANAHITA, B.S. (Sharif University of Technology) 2004. Single-Molecule and Computational Studies of Protein-DNA Interactions. (Cohen/Mirny/van Oijen)

WINKLER, MARK THOMAS, B.S.E. (Case Western Reserve) 2004. Non-Equilibrium Chalcogen Concentrations in Silicon: Physical Structure, Electronic Transport, and Photovoltaic Potential. (Mazur)

ANNINOS, DIONYSIOS Theodoros,B.A. (Cornell University) 2006, (Harvard University) 2008. Classical and Quantum Symmetries of de Sitter Space . (Strominger) >

BAKR, WASEEM S., B.S. (Massachusetts Institute of Technology) 2005. Microscopic studies of quantum phase transitions in optical lattices . (Greiner)

BARAK, GILAD, B.S. (Hebrew University) 2000, (Tel Aviv University) 2006. Momentum resolved tunneling study of interaction effects in ID electron systems .(Yacoby)

BARANDES, JACOB AARON, B.A. (ColumbiaUniversity) 2004. Exploring Supergravity Landscapes . (Denef)

BISWAS, RUDRO RANA, B.S. (Calcutta University) 2003, (Harvard University) 2011. Explorations in Dirac Fermions and Spin Liquids . (Sachdev)

CHEN, PEIQIU, B.S. (University of Science and Technology China) 2004, (Harvard University) 2005. Molecular evolution and thermal adaptation . (Nelson/Shakhnovich)

FREUDIGER, CHRISTIAN WILHELM, Diploma (Technische Universitat of München) 2005, (Harvard University) 2007. Stimulated Raman Scattering (SRS) Microscopy . (Zhuang/Xie)

GALLICCHIO, JASON RICHARD, B.S. (University of Illinois at Urbana Champaign) 1999, (University of Illinois at Urbana Champaign) 2001. A Multivariate Approach to Jet Substructure and Jet Superstructure . (Schwartz)

GLENDAY, ALEXANDER, B.A. (Williams College) 2002. Progress in Tests of Fundamental Physics Using  a 3He and 129Xe Zeeman Maser . (Stubbs/Walsworth)

GOLDMAN, JOSHUA DAVID, A.B. (Cornell University) 2002, (University of Cambridge) 2003, (Imperial College London) 2004. Planar Penning Traps with Anharmonicity Compensation for Single-Electron Qubits. (Gabrielse)

HUH, YEJIN, B.S. (Yale University) 2006, (Harvard University) 2008. Quantum Phase Transitions in d-wave Superconductors and Antiferromagnetic Kagome Lattices . (Sachdev)

KASHIF, LASHKAR, B.S. (Yale University) 2003. Measurement of the Z boson cross-section in the dimuon channel in pp collisions at sqrt{s} = 7 TeV . (Huth)

KAZ, DAVID MARTIN, B.S. (University of Arizona) 2003, (Harvard University) 2008. Colloidal Particles and Liquid Interfaces: A Spectrum of Interactions. (Manoharan)

KOLTHAMMER, WILLIAM STEVEN, B.S. (Harvey Mudd College) 2004, (Harvard University) 2006. Antimatter Plasmas Within a Penning-Ioffe Trap . (Gabrielse)

LEE-BOEHM, CORRY LOUISE, B.S.E. (University of Colorado) 2004, (Harvard University) 2011. B0 Meson Decays to rho0 K*0, f0 K*0, and rho- K*+, Including Higher K* Resonances . (Morii)

MARTINEZ-OUTSCHOORN, VERENA INGRID, B.A. (Harvard University) 2004, (Harvard University) 2007. Measurement of the Charge Asymmetry of W Bosons Produced in pp Collisions at sqrt(s) = 7 TeV with the ATLAS Detector . (Guimaraes da Costa)

MCCONNELL, ROBERT PURYEAR, B.S. (Stanford University) 2005, (Harvard University) 2007. Laser-Controlled Charge-Exchange Production of Antihydrogen . (Gabrielse)

MCGORTY, RYAN, B.S. (University of Massachusetts) 2005, (Harvard University) 2008. Colloidal Particles at Fluid Interfaces and the Interface of Colloidal Fluids . (Manoharan)

METLITSKI, MAXIM A., B.Sc. (University of British Columbia) 2003, (University of British Columbia) 2005. Aspects of Critical Behavior of Two Dimensional Electron Systems . (Sachdev)

MOON, EUN GOOK, B.S. (Seoul National University) 2005 Superfluidity in Strongly Correlated Systems . (Sachdev)

PETERSON, COURTNEY MARIE, B.S. (Georgetown University) 2002,(University of Cambridge) 2003, (Imperial College London) 2004, (Harvard University) 2007. Testing Multi-Field Inflation . (Stubbs/Tegmark)

PIELAWA, SUSANNE, Diploma (UNIVERSITY OF ULM) 2006, (Harvard University) 2009. Metastable Phases and Dynamics of Low-DimensionalStrongly-Correlated Atomic Quantum Gases . (Sachdev)

PRASAD, SRIVAS, A.B. (Princeton University) 2005, (Harvard University) 2007. Measurement of the Cross-Section of W Bosons Produced in pp Collisions at √s=7 TeV With the ATLAS Detector . (Guimaraes da Costa)

ROMANOWSKY, MARK, B.A. (Swarthmore College) 2003. High Throughput Microfluidics for Materials Synthesis . (Weitz)

SMITH, BEN CAMPBELL, B.A. (Harvard University) 2005. Measurement of the Transverse Momentum Spectrum of W Bosons Produced at √s = 7 TeV using the ATLAS Detector . (Morii)

TANJI, HARUKA, B.S. (University of Tokyo) 2002, (University of Tokyo) 2005, (Harvard University) 2009. Few-Photon Nonlinearity with an Atomic Ensemble in an Optical Cavity . (Lukin/Vuletic)

TRODAHL, HALVAR JOSEPH, B. Sc. (Victoria University) 2005, (Harvard University) 2008. Low Temperature Scanning Probe Microscope for Imaging Nanometer Scale Electronic Devices. (Westervelt)

WILLIAMS, TESS, B.Sc. (Stanford University) 2005. Nanoscale Electronic Structure of Cuprate Superconductors Investigated with Scanning Tunneling Spectroscopy. (Hoffman)

ANDERSEN, JOSEPH, B.S. (Univ. of Queensland) 1999. Investigations of the Convectively Coupled Equatorial Waves and the Madden-Julian Oscillation. (Huth)

BREDBERG, IRENE, M.PHYS., M.Sc. (Univ. of Oxford) 2006, 2007. The Einstein and the Navier-Stokes Equations:  Connecting the Two . (Strominger)

CHURCHILL, HUGH, B.A., B.M. (Oberlin College) 2006. Quantum Dots in Gated Nanowires and Nanotubes. (Marcus)

CONNOLLY, COLIN Inelastic Collisions of Atomic Antimony, Aluminum, Eerbium and Thulium Below . (Doyle)

CORDOVA, CLAY, B.A. (Columbia University) 2007. Supersymmetric Spectroscopy. (Vafa)

DILLARD, COLIN, S.B. (Massachusetts Institute of Technology) 2006. Quasiparticle Tunneling and High Bias Breakdown in the Fractional Quantum Hall Effect. (Kastner/Silvera)

DOWD, JASON, A.B. (Washington Univ.) 2006;(Harvard Univ.) 2008. Interpreting Assessments of Student Learning in the Introductory Physics Classroom and Laboratory. (Mazur)

GOLDSTEIN, GARRY Applications of Many Body Dynamics of Solid State Systems to Quantum Metrology and Computation (Chamon/Sachdev)

GUREVICH, YULIA, B.S. (Yale University) 2005. Preliminary Measurements for an Electron EDM Experiment in ThO. (Gabrielse)

KAGAN, MICHAEL, B.S. (Univ. of Michigan) 2006; (Harvard Univ.) 2008. Measurement of the W ± Z production cross section and limits on anomalous triple gauge couplings at √S = 7 TeV using the ATLAS detector. (Morii)

LIN, TONGYAN, S.B. (Massachusetts Institute of Technology) 2007; (Harvard Univ.) 2009. Signals of Particle Dark Matter. (Finkbeiner)

McCLURE, DOUGLAS, B.A. (Harvard University) 2006; (Harvard University) 2008. Interferometer-Based Studies of Quantum Hall Phenomena. (Marcus)

MAIN, ELIZABETH, B.S.(Harvey Mudd College) 2004; (Harvard Univ.) 2006. Investigating Atomic Scale Disordered Stripes in the Cuprate Superconductors with Scanning Tunneling Microscopy. (Hoffman)

MASON, DOUGLAS Toward a Design Principle in Mesoscopic Systems . (Heller/Kaxiras)

MULUNEH, MELAKU, B.A. (Swarthmore College) 2003. Soft colloids from p(NIPAm-co-AAc): packing dynamics and structure. (Weitz)

PIVONKA, ADAM Nanoscale Imaging of Phase Transitions with Scanning Force Microscopy . (Hoffman)

REAL, ESTEBAN, A.B. (Harvard University) 2002; (Harvard University) 2007. Models of visual processing by the retina. (Meister/Franklin)

RICHERME, PHILIP, S.B. (Massachusetts Institute of Technology) 2006; (Harvard University) 2008. Trapped Antihydrogen in Its Ground State. (Gabrielse)

SANTOS, LUIZ, B.S. (Univ. Fed. Do Espito Santo) 2004. Topological Properties of Interacting Fermionic Systems. (Chamon/Halperin)

SCHLAFLY, EDWARD, B.S. (Stanford University) 2007; (Harvard University) 2011. Dust in Large Optical Surveys. (Finkbeiner)

SETIAWAN, WIDAGDO, B.S. (Massachusetts Institute of Technology) 2007. Fermi Gas Microscope . (Greiner)

SHUVE, BRIAN, B.A.Sc. (University of Toronto) 2007; (Harvard University) 2011. Dark and Light: Unifying the Origins of Dark and Visible Matter. (Randall)

SIMMONS-DUFFIN, DAVID, A.B., A.M. (Harvard University) 2006. Carving Out the Space of Conformal Field Theories. (Randall)

TEMPEL, DAVID, B.A. (Hunter College) 2007. Time-dependent density functional theory for open quantum systems and quantum computation. (Aspuru-Guzik/Cohen)  

VENKATCHALAM, VIVEK, S.B. (Massachusetts Institute of Technology) 2006. Single Electron Probes of Fractional Quantum Hall States. (Yacoby)  

VLASSAREV, DIMITAR, B.S. (William and Mary) 2005; (Harvard University) 2007. DNA Characterization with Solid-State Nanopores and Combined Carbon Nanotube across Solid-State Nanopore Sensors . (Golovchenko)  

WANG, WENQIN, B.S. (Univ. of Science and Technology of China) 2006. Structures and dynamics in live bacteria revealed by super-resolution fluorescence microscopy. (Zhuang)

WANG, YIHUA Laser-Based Angle-Resolved Photoemission Spectroscopy of Topological Insulators. (Gedik / Hoffman)

WISSNER-GROSS, ZACHARY Symmetry Breaking in Neuronal Development. (Yanik /Levine)

YONG, EE HOU, B.Sc. (Stanford University) 2003. Problems at the Nexus of Geometry and Soft Matter: Rings, Ribbons and Shells. (Mahadevan)

ANOUS, TAREK Explorations in de Sitter Space and Amorphous Black Hole Bound States in String Theory . (Strominger)

BABADI, MEHRTASH Non-Equilibrium Dynamics of Artificial Quantum Matter . (Demler)

BRUNEAUX, LUKE Multiple Unnecessary Protein Sources and Cost to Growth Rate in E.coli. (Prentiss)

CHIEN, YANG TING Jet Physics at High Energy Colliders Matthew . (Schwartz)

CHOE, HWAN SUNG Choe Modulated Nanowire Structures for Exploring New Nanoprocessor Architectures and Approaches to Biosensing. (Lieber/Cohen)

COPETE, ANTONIO BAT Slew Survey (BATSS): Slew Data Analysis for the Swift-BAT Coded Aperture Imaging Telescope . (Stubbs)

DATTA, SUJIT Getting Out of a Tight Spot: Physics of Flow Through Porous Materials . (Weitz)

DISCIACCA, JACK First Single Particle Measurements of the Proton and Antiproton Magnetic Moments . (Gabrielse)

DORR, JOSHUA Quantum Jump Spectroscopy of a Single Electron in a New and Improved Apparatus . (Gabrielse )

DZYABURA, VASILY Pathways to a Metallic Hydrogen . (Silvera)

ESPAHBODI, SAM 4d Spectra from BPS Quiver Dualities. (Vafa)

FANG, JIEPING New Methods to Create Multielectron Bubbles in Liquid Helium . (Silvera)

FELDMAN, BEN Measurements of Interaction-Driven States in Monolayer and Bilayer Graphene . (Yacoby)

FOGWELL HOOGERHEIDE, SHANNON Trapped Positrons for High-Precision Magnetic Moment Measurements . (Gabrielse)

FUNG, JEROME Measuring the 3D Dynamics of Multiple Colloidal Particles with Digital Holographic Microscopy . (Manoharan)

GULLANS, MICHAEL Controlling Atomic, Solid-State and Hybrid Systems for Quantum Information Processing. (Lukin)

JAWERTH, LOUISE MARIE The Mechanics of Fibrin Networks and their Alterations by Platelets . (Weitz)

JEANTY, LAURA Measurement of the WZ Production Cross Section in Proton-Proton Collision at √s = 7 TeV and Limits on Anomalous Triple Gauge Couplings with the ATLAS Detector . (Franklin)

JENSEN, KATHERINE Structure and Defects of Hard-Sphere Colloidal Crystals and Glasses . (Weitz)

KAHAWALA, DILANI S Topics on Hadron Collider Physics . (Randall)

KITAGAWA, TAKUYA New Phenomena in Non-Equilibrium Quantum Physics . (Demler)

KOU, ANGELA Microscopic Properties of the Fractional Quantum Hall Effect . (Halperin)

LIN, TINA Dynamics of Charged Colloids in Nonpolar Solvents . (Weitz)

MCCORMICK, ANDREW Discrete Differential Geometry and Physics of Elastic Curves . (Mahadevan)

REDDING, JAMES Medford Spin Qubits in Double and Triple Quantum Dots . (Marcus/Yacoby)

NARAYAN, GAUTHAM Light Curves of Type Ia Supernovae and Preliminary Cosmological Constraints from the ESSENCE Survey . (Stubbs)

PAN, TONY Properties of Unusually Luminous Supernovae . (Loeb)

RASTOGI, ASHWIN Brane Constructions and BPS Spectra . (Vafa)

RUEL, JONATHAN Optical Spectroscopy and Velocity Dispersions of SZ-selected Galaxy Clusters . (Stubbs)

SHER, MENG JU Intermediate Band Properties of Femtosecond-Laser Hyperdoped Silicon . (Mazur)

TANG, YIQIAO Chirality of Light and Its Interaction with Chiral Matter . (Cohen)

TAYCHATANAPAT, THITI From Hopping to Ballistic Transport in Graphene-Based Electronic Devices . (Jarillo-Herrero/Yacoby)

VISBAL, ELI  Future Probes of Cosmology and the High-Redshift Universe . (Loeb)

ZELJKOVIC, ILIJA Visualizing the Interplay of Structural and Electronic Disorders in High-Temperature Superconductors using Scanning Tunneling Microscopy . (Hoffman)

ZEVI DELLA PORTA, GIOVANNI Measurement of the Cross-Section for W Boson Production in Association With B-Jets in Proton-Proton Collisions at √S = 7 Tev at the LHC Using the ATLAS Detector . (Franklin)

AU, YAT SHAN LinkInelastic collisions of atomic thorium and molecular thorium monoxide with cold helium-3. (Doyle)

BARR, MATTHEW Coherent Scattering in Two Dimensions: Graphene and Quantum Corrals . (Heller)

CHANG, CHI-MING Higher Spin Holography. (Yin)

CHU, YIWEN Quantum optics with atom-like systems in diamond. (Lukin)

GATANOV, TIMUR Data-Driven Analysis of Mitotic Spindles . (Needleman/Kaxiras)

GRINOLDS, MICHAEL Nanoscale magnetic resonance imaging and magnetic sensing using atomic defects in diamond. (Yacoby)

GUERRA, RODRIGO Elasticity of Compressed Emulsions . (Weitz)

HERRING, PATRICK LinkLow Dimensional Carbon Electronics. (Jarillo-Herrero/Yacoby)

HESS, PAUL W. LinkImproving the Limit on the Electron EDM: Data Acquisition and Systematics Studies in the ACME Experiment. (Gabrielse)

HOU, JENNIFER Dynamics in Biological Soft Materials . (Cohen)

HUBER, FLORIAN Site-Resolved Imaging with the Fermi Gas Microscope. (Greiner)

HUTZLER, NICHOLAS A New Limit on the Electron Electric Dipole Moment . (Doyle)

KESTIN, GREG Light-Shell Theory Foundations. (Georgi)

LYSOV, VYACHESLAV From Petrov-Einstein to Navier-Stokes. (Strominger)

MA, RUICHAO Engineered Potentials and Dynamics of Ultracold Quantum Gases under the Microscope. (Greiner)

MAURER, PETER Coherent control of diamond defects for quantum information science and quantum sensing. (Lukin)

NG, GIM SENG Aspects of Symmetry in de Sitter Space. (Strominger)

NICOLAISEN, LAUREN Distortions in Genealogies due to Purifying Selection. (Desai)

NURGALIEV, DANIYAR A Study of the Radial and Azimuthal Gas Distribution in Massive Galaxy Clusters. (Stubbs)

RUBIN, DOUGLAS Properties of Dark Matter Halos and Novel Signatures of Baryons in Them . (Loeb)

RUSSELL, EMILY Structure and Properties of Charged Colloidal Systems. (Weitz)

SHIELDS, BRENDAN Diamond Platforms for Nanoscale Photonics and Metrology. (Lukin)

SPAUN, BENJAMIN A Ten-Fold Improvement to the Limit of the Electron Electric Dipole Moment. (Gabrielse)

YAO, NORMAN Topology, Localization, and Quantum Information in Atomic, Molecular and Optical Systems. (Lukin)

YEE, MICHAEL Scanning Tunneling Spectroscopy of Topological Insulators and Cuprate Superconductors. (Hoffman)

BENJAMIN, DAVID ISAIAH Impurity Physics in Resonant X-Ray Scattering and Ultracold Atomic Gases . (Demler)

BEN-SHACH, GILAD Theoretical Considerations for Experiments to Create and Detect Localised Majorana Modes in Electronic Systems. (Halperin/Yacoby)

CHANG, WILLY Superconducting Proximity Effect in InAs Nanowires . (Marcus/Yacoby)

CHUNG, HYEYOUN Exploring Black Hole Dynamics . (Randall)

INCORVIA, JEAN ANNE CURRIVAN Nanoscale Magnetic Materials for Energy-Efficient Spin Based Transistors. (Westervelt)

FEIGE, ILYA ERIC ALEXANDER Factorization and Precision Calculations in Particle Physics. (Schwartz)

FRENZEL, ALEX Terahertz Electrodynamics of Dirac Fermions in Graphene. (Hoffman)

HSU, CHIA WEI Novel Trapping and Scattering of Light in Resonant Nanophotonic Structures. (Cohen)

JORGOLLI, MARSELA Integrated nanoscale tools for interrogating living cells. (Park)

KALRA, RITA RANI An Improved Antihydrogen Trap. (Gabrielse)

KOLKOWITZ, SHIMON JACOB Nanoscale Sensing with Individual Nitrogen-Vacancy Centers in Diamond. (Lukin)

LAVRENTOVICH, MAXIM OLEGOVICH Diffusion, Absorbing States, and Nonequilibrium Phase Transitions in Range Expansions and Evolution. (Nelson)

LIU, BO Selected Topics in Scattering Theory: From Chaos to Resonance. (Heller)

LOCKHART, GUGLIELMO PAUL Self-Dual Strings of Six-Dimensional SCFTs . (Vafa)

MAGKIRIADOU, SOFIA Structural Color from Colloidal Glasses. (Manoharan)

MCIVER, JAMES W. Nonlinear Optical and Optoelectronic Studies of Topological Insulator Surfaces. (Hoffman)

MEISNER, AARON MICHAEL Full-sky, High-resolution Maps of Interstellar Dust. (Finkbeiner)

MERCURIO, KEVIN MICHAEL A Search for the Higgs Boson Produced in Association with a Vector Boson Using the ATLAS Detector at the LHC. (Huth)

NOWOJEWSKI, ANDRZEJ KAZIMIERZ Pathogen Avoidance by Caenorhabditis Elegans is a Pheromone-Mediated Collective Behavior. (Levine)

PISKORSKI, JULIA HEGE Cooling, Collisions and non-Sticking of Polyatomic Molecules in a Cryogenic Buffer Gas Cell. (Doyle)

SAJJAD, AQIL An Effective Theory on the Light Shell. (Georgi)

SCHADE, NICHOLAS BENJAMIN Self-Assembly of Plasmonic Nanoclusters for Optical Metafluids. (Manoharan)

SHULMAN, MICHAEL DEAN Entanglement and Metrology with Singlet-Triplet Qubits. (Yacoby)

SPEARMAN, WILLIAM R. Measurement of the Mass and Width of the Higgs Boson in the H to ZZ to 4l Decay Channel Using Per-Event Response Information. (Guimaraes da Costa)

THOMPSON, JEFFREY DOUGLAS A Quantum Interface Between Single Atoms and Nanophotonic Structures. (Lukin)

WANG, TOUT TAOTAO Small Diatomic Alkali Molecules at Ultracold Temperatures. (Doyle)

WONG, CHIN LIN Beam Characterization and Systematics of the Bicep2 and Keck Array Cosmic Microwave Background Polarization Experiments. (Kovac)

AGARWAL, KARTIEK Slow Dynamics in Quantum Matter: the Role of Dimensionality, Disorder and Dissipation. (Demler)

ALLEN, MONICA Quantum electronic transport in mesoscopic graphene devices. (Yacoby)

CHAE, EUNMI Laser Slowing of CaF Molecules and Progress towards a Dual-MOT for Li and CaF. (Doyle)

CHOTIBUT, THIPARAT Aspects of Statistical Fluctuations in Evolutionary and Population Dynamics. (Nelson)

CHOWDHURY, DEBANJAN Interplay of Broken Symmetries and Quantum Criticality in Correlated Electronic Systems. (Sachdev)

CLARK, BRIAN Search for New Physics in Dijet Invariant Mass Spectrum. (Huth)

FARHI, DAVID Jets and Metastability in Quantum Mechanics and Quantum Field Theory. (Schwartz)

FORSYTHE, MARTIN Advances in Ab Initio Modeling of the Many-Body Effects of Dispersion Interactions in Functional Organic Materials. (Aspuru-Guzik/Ni)

GOOD, BENJAMIN Molecular evolution in rapidly evolving populations. (Desai)

HART, SEAN Electronic Phenomena in Two-Dimensional Topological Insulators. (Yacoby)

HE, YANG Scanning Tunneling Microscopy Study on Strongly Correlated Materials. (Hoffman)

HIGGINBOTHAM, ANDREW Quantum Dots for Conventional and Topological Qubits. (Marcus/Westervelt)

HUANG, DENNIS Nanoscale Investigations of High-Temperature Superconductivity in a Single Atomic Layer of Iron Selenide. (Hoffman)

ISAKOV, ALEXANDER The Collective Action Problem in a Social and a Biophysical System. (Mahadevan)

KLALES, ANNA A classical perspective on non-diffractive disorder. (Heller)

KOBY, TIMOTHY Development of a Trajectory Model for the Analysis of Stratospheric Water Vapor. (Anderson/Heller)

KOMAR, PETER Quantum Information Science and Quantum Metrology: Novel Systems and Applications. (Lukin)

KUCSCKO, GEORG Coupled Spins in Diamond: From Quantum Control to Metrology and Many-Body Physics. (Lukin)

LAZOVICH, TOMO Observation of the Higgs boson in the WW* channel and search for Higgs boson pair production in the bb ̅bb ̅ channel with the ATLAS detector. (Franklin)

LEE, JUNHYUN Novel quantum phase transitions in low-dimensional systems. (Sachdev)

LIN, YING-HSUAN Conformal Bootstrap in Two Dimensions. (Yin)

LUCAS, ANDREW Transport and hydrodynamics in holography, strange metals and graphene. (Sachdev)

MACLAURIN, DOUGAL Modeling, Inference and Optimization with Composable Differentiable Procedures. (Adams/Cohen)

PARSONS, MAXWELL Probing the Hubbard Model with Single-Site Resolution. (Greiner)

PATEJ, ANNA Distributions of Gas and Galaxies from Galaxy Clusters to Larger Scales. (Eisenstein/Loeb/Finkbeiner)

PITTMAN, SUZANNE The Classical-Quantum Correspondence of Polyatomic Molecules. (Heller)

POPA, CRISTINA Simulating the Cosmic Gas: From Globular Clusters to the Most Massive Haloes. (Randall)

PORFYRIADIS, ACHILLEAS Gravitational waves from the Kerr/CFT correspondence . (Strominger)

PREISS, PHILIPP Atomic Bose-Hubbard systems with single-particle control. (Greiner)

SHAO, SHU-HENG Supersymmetric Particles in Four Dimensions. (Yin)

YEN, ANDY Search for Weak Gaugino Production in Final States with One Lepton, Two b-jets Consistent with a Higgs Boson, and Missing Transverse Momentum with the ATLAS detector. (Huth)

BERCK, MATTHEW ELI Reconstructing and Analyzing the Wiring Diagram of the Drosophila Larva Olfactory System. (Samuel)

COUGHLIN, MICHAEL WILLIAM Gravitational Wave Astronomy in the LSST Era. (Stubbs)

DIMIDUK, THOMAS Holographic Microscopy for Soft Matter and Biophysics. (Manoharan)

FROST, WILLIAM THOMAS Tunneling in Quantum Field Theory and the Fate of the Universe. (Schwartz)

JERISON, ELIZABETH Epistasis and Pleiotropy in Evolving Populations. (Desai)

KAFKA, GARETH A Search for Sterile Neutrinos at the NOνA Far Detector. (Feldman)

KOSHELEVA, EKATERINA Genetic Draft and Linked Selection in Rapidly Adapting Populations. (Desai)

KOSTINSKI, SARAH VALERIE Geometrical Aspects of Soft Matter and Optical Systems. (Brenner)

KOZYRYEV, IVAN Laser Cooling and Inelastic Collisions of the Polyatomic Radical SrOH. (Doyle)

KRALL, REBECCA Studies of Dark Matter and Supersymmetry. (Reece)

KRAMER, ERIC DAVID Observational Constraints on Dissipative Dark Matter. (Randall)

LEE, LUCY EUNJU Network Analysis of Transcriptome to Reveal Interactions Among Genes and Signaling Pathways. (Levine)

LOVCHINSKY, IGOR Nanoscale Magnetic Resonance Spectroscopy Using Individual Spin Qubits. (Lukin)

LUPSASCA, ALEXANDRU The Maximally Rotating Black Hole as a Critical Point in Astronomy. (Strominger)

MANSURIPUR, TOBIAS The Effect of Intracavity Field Variation on the Emission Properties of Quantum Cascade Lasers. (Capasso/Yacoby)

MARANTAN, ANDREW WILLIAM The Roles of Randomness in Biophysics: From Cell Growth to Behavioral Control. (Mahadevan)

MASHIAN, NATALIE Modeling the Constituents of the Early Universe. (Loeb/Stubbs)

MAZURENKO, ANTON Probing Long Range Antiferromagnetism and Dynamics in the Fermi-Hubbard Model. (Greiner)

MITRA, PRAHAR Asymptotic Symmetries in Four Dimensional Gauge and Gravity Theories. (Strominger)

NEAGU, IULIA ALEXANDRA Evolutionary Dynamics of Infection. (Nowak/Prentiss)

PETRIK WEST, ELIZABETH A Thermochemical Cryogenic Buffer Gas Beam Source of ThO for Measuring the Electric Dipole Moment of the Electron. (Doyle)

RUDELIUS, THOMAS Topics in the String Landscape and the Swampland. (Vafa)

SAKLAYEN, NABIHA Laser-Activated Plasmonic Substrates for Intracellular Delivery. (Mazur)

SIPAHIGIL, ALP Quantum Optics with Diamond Color Centers Coupled to Nanophotonic Devices. (Lukin)

SUN, SIYUAN Search for the Supersymmetric Partner to the Top Quark Using Recoils Against Strong Initial State Radiation. (Franklin)

TAI, MING ERIC Microscopy of Interacting Quantum Systems. (Greiner)

TOLLEY, EMMA Search for Evidence of Dark Matter Production in Monojet Events with the ATLAS Detector. (Morii)

WILSON, ALYSSA MICHELLE New Insights on Neural Circuit Refinement in the Central Nervous System: Climbing Fiber Synapse Elimination in the Developing Mouse Cerebellum Studied with Serial-Section Scanning Electron Microscopy. (Lichtman/Samuel)

BAUCH, ERIK Optimizing Solid-State Spins in Diamond for Nano- to Millimeter scale Magnetic Field Sensing. (Walsworth)

BRACHER, DAVID OLMSTEAD Development of photonic crystal cavities to enhance point defect emission in silicon carbide. (Hu: SEAS)

CHAN, STEPHEN KAM WAH Orthogonal Decompositions of Collision Events and Measurement Combinations in Standard Model $VH\left(b\bar{b}\right)$ Searches with the ATLAS Detector. (Huth)

CHATTERJEE, SHUBHAYU Transport and symmetry breaking in strongly correlated matter with topological order. (Sachdev)

CHOI, SOONWON Quantum Dynamics of Strongly Interacting Many-Body Systems. (Lukin)

CONNORS, JAKE Channel Length Scaling in Microwave Graphene Field Effect Transistors. (Kovac)

DAHLSTROM, ERIN KATRINA Quantifying and modeling dynamics of heat shock detection and response in the intestine of Caenorhabditis elegans. (Levine)

DAYLAN, TANSU A Transdimensional Perspective on Dark Matter. (Finkbeiner)

DOVZHENKO, YULIYA Imaging of Condensed Matter Magnetism Using an Atomic-Sized Sensor. (Yacoby)

EVANS, RUFFIN ELEY An integrated diamond nanophotonics platform for quantum optics. (Lukin)

FLEMING, STEPHEN Probing nanopore - DNA interactions with MspA. (Golovchenko)

FRYE, CHRISTOPHER Understanding Jet Physics at Modern Particle Colliders. (Schwartz)

FU, WENBO The Sachdev-Ye-Kitaev model and matter without quasiparticles. (Sachdev)

GOLDMAN, MICHAEL LURIE Coherent Optical Control of Atom-Like Defects in Diamond: Probing Internal Dynamics and Environmental Interactions. (Lukin)

HE, TEMPLE MU On Soft Theorems and Asymptotic Symmetries in Four Dimensions. (Strominger)

HOYT, ROBERT Understanding Catalysts with Density Functional Theory and Machine Learning. (Kaxiras)

KAPEC, DANIEL STEVEN Aspects of Symmetry in Asymptotically Flat Spacetimes. (Strominger)

LEE, ALBERT Mapping the Relationship Between Interstellar Dust and Radiation in the Milky Way. (Finkbeiner)

LEE, JAEHYEON Prediction and Inference Methods for Modern Astronomical Surveys (Eisenstein, Finkbeiner)

LUKIN, ALEXANDER Entanglement Dynamics in One Dimension -- From Quantum Thermalization to Many-Body Localization (Greiner)

NOVITSKI, ELISE M. Apparatus and Methods for a New Measurement of the Electron and Positron Magnetic Moments. (Gabrielse)

PATHAK, ABHISHEK Holography Beyond AdS/CFT: Explorations in Kerr/CFT and Higher Spin DS/CFT. (Strominger)

PETERMAN, NEIL Sequence-function models of regulatory RNA in E. coli. (Levine)

PICK, ADI Spontaneous Emission in Nanophotonics. (Johnson: MIT)

PO, HOI CHUN Keeping it Real: An Alternative Picture for Symmetry and Topology in Condensed Matter Systems. (Vishwanath)

REN, HECHEN Topological Superconductivity in Two-Dimensional Electronic Systems. (Yacoby)

ROXLO, THOMAS Opening the black box of neural nets: case studies in stop/top discrimination. (Reece)

SHTYK, OLEKSANDR Designing Singularities in Electronic Dispersions (Chamon, Demler)

TONG, BAOJIA Search for pair production of Higgs bosons in the four b quark final state with the ATLAS detector. (Franklin)

WHITSITT, SETH Universal non-local observables at strongly interacting quantum critical points. (Sachdev)

YAN, KAI Factorization in hadron collisions from effective field theory. (Schwartz)

AMATOGRILL, JESSE A Fast 7Li-based Quantum Simulator (Ketterle, Greiner)

BARON, JACOB Tools for Higher Dimensional Study of the Drosophila Larval Olfactory System (Samuel)

BUZA, VICTOR Constraining Primordial Gravitational Waves Using Present and Future CMB Experiments (Kovac)

CHAEL, ANDREW Simulating and Imaging Supermassive Black Hole Accretion Flows (Narayan, Dvorkin)

CHIU, CHRISTIE Quantum Simulation of the Hubbard Model (Greiner)

DIPETRILLO, KARRI Search for Long-Lived, Massive Particles in Events with a Displaced Vertex and a Displaced Muon Using sqrt{s} = 13 TeV pp-Collisions with the ATLAS Detector (Franklin)

FANG, SHIANG Multi-scale Theoretical Modeling of Twisted van der Waals Bilayers (Kaxiras)

GAO, PING Traversable Wormholes and Regenesis (Jafferis)

GONSKI, JULIA Probing Natural Supersymmetry with Initial State Radiation: the Search for Stops and Higgsinos at ATLAS (Morii)

HARVEY, SHANNON Developing Singlet-Triplet Qubits in Gallium Arsenide as a Platform for Quantum Computing (Yacoby)

JEFFERSON, PATRICK Geometric Deconstruction of Supersymmetric Quantum Field Theories (Vafa)

KANG, MONICA JINWOO Two Views on Gravity: F-theory and Holography (Jafferis)

KATES-HARBECK, JULIAN Tackling Complexity and Nonlinearity in Plasmas and Networks Using Artificial Intelligence and Analytical Methods  (Desai, Nowak)

KLEIN, ELLEN Structure and Dynamics of Colloidal Clusters (Manoharan)

LEVIN, ANDREI Single-Electron Probes of Two-Dimensional Materials (Yacoby)

LIU, XIAOMENG Correlated Electron States in Coupled Graphene Double-Layer Heterostructures (Kim)

LIU, LEE Building Single Molecules – Reactions, Collisions, and Spectroscopy of Two Atoms (Ni)

MARABLE, KATHRYN Progress Towards a Sub-ppb Measurement of the Antiproton Magnetic Moment (Gabrielse)

MARSHALL, MASON New Apparatus and Methods for the Measurement of the Proton and Antiproton Magnetic Moments (Gabrielse)

MCNAMARA, HAROLD Synthetic Physiology: Manipulating and Measuring Biological Pattern Formation with Light (Cohen)

MEMET, EDVIN Parking, Puckering, and Peeling in Small Soft Systems (Mahadevan)

MUKHAMETZHANOV, BAURZHAN Bootstrapping High-Energy States in Conformal Field Theories (Jafferis)

OLSON, JOSEPH Plasticity and Firing Rate Dynamics in Leaky Integrate-and-Fire Models of Cortical Circuits (Kreiman)

PANDA, CRISTIAN Order of Magnitude Improved Limit on the Electric Dipole Moment of the Electron (Gabrielse)

PASTERSKI, SABRINA Implications of Superrotations (Strominger)

PATE, MONICA Aspects of Symmetry in the Infrared (Strominger)

PATEL, AAVISHKAR Transport, Criticality, and Chaos in Fermionic Quantum Matter at Nonzero Density (Sachdev)

PHELPS, GREGORY A Dipolar Quantum Gas Microscope (Greiner)

RISPOLI, MATTHEW Microscopy of Correlations at a Non-Equilibrium Phase Transition (Greiner)

ROLOFF, JENNIFER Exploring the Standard Model and beyond with jets from proton-proton collisions at sqrt(s)=13 TeV with the ATLAS Experiment (Huth)

ROWAN, MICHAEL Dissipation of Magnetic Energy in Collisionless Accretion Flows (Narayan and Morii)

SAFIRA, ARTHUR NV Magnetic Noise Sensing and Quantum Information Processing, and Llevitating Micromagnets over Type-II Superconductors (Lukin)

SHI, YICHEN Analytical Steps Towards the Observation of High-Spin Black Holes (Strominger)

THOMSON, ALEXANDRA Emergent Dapless Fermions in Strongly-Correlated Phases of Matter and Quantum Critical Points (Sachdev)

WEBB, TATIANA The Nanoscale Structure of Charge Order in Cuprate Superconductor Bi2201 (Hoffman)

WESSELS, MELISSA Progress Toward a Single-Electron Qubit in an Optimized Planar Penning Trap (Gabrielse)

WILLIAMS, MOBOLAJI Biomolecules, Combinatorics, and Statistical Physics (Shakhnovich, Manoharan)

XIONG, ZHAOXI Classification and Construction of Topological Phases of Quantum Matter (Vishwanath)

ZOU, LIUJUN An Odyssey in Modern Quantum Many-Body Physics (Todadri, Sachdev)

ANDEREGG, LOÏC Ultracold molecules in optical arrays: from laser cooling to molecular collisions (Doyle)

BALTHAZAR, BRUNO 2d String Theory and the Non-Perturbative c=1 Matrix Model (Yin)

BAUM, LOUIS Laser cooling and 1D magneto-optical trapping of calcium monohydroxide (Doyle)

CARR, STEPHEN Moiré patterns in 2D materials (Kaxiras)

COLLIER, SCOTT Aspects of local conformal symmetry in 1+1 dimensions (Yin)

DASGUPTA, ISHITA Algorithmic approaches to ecological rationality in humans and machines (Mahadevan)

DILLAVOU, SAMUEL Hidden Dynamics of Static Friction (Manoharan)

FLAMANT, CEDRIC Methods for Converging Solutions of Differential Equations: Applying Imaginary Time Propagation to Density Functional Theory and Unsupervised Neural Networks to Dynamical Systems (Kaxiras)

HUANG, KO-FAN (KATIE) Superconducting Proximity Effect in Graphene (Kim)

JONES, NATHAN Toward Antihydrogen Spectroscopy (Gabrielse)

KABCENELL, AARON Hybrid Quantum Systems with Nitrogen Vacancy Centers and Mechanical Resonators (Lukin)

KATES-HARBECK, JULIAN Tackling complexity and nonlinearity in plasmas and networks using artificial intelligence and analytical methods (Desai)

KIVLICHAN, IAN Faster quantum simulation of quantum chemistry with tailored algorithms and Hamiltonian s (Aspuru-Guzik, Lukin)

KOSOWSKY, MICHAEL Topological Phenomena in Two-Dimensional Electron Systems (Yacoby)

KUATE DEFO, RODRICK Modeling Formation and Stability of Fluorescent Defects in Wide-Bandgap Semiconductors (Kaxiras)

LEE, JONG YEON Fractionalization, Emergent Gauge Dynamics, and Topology in Quantum Matter (Vishwanath)

MARABLE, KATHRYN Progress towards a sub-ppb measurement of the antiproton magnetic moment (Gabrielse)

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CONTRERAS, TAYLOR Toward Tonne-Scale NEXT Detectors: SiPM Energy-Tracking Planes and Metalenses for Light Collection (Guenette)

DOYLE, SPENCER From Elements to Electronics: Designing Thin Film Perovskite Oxides for Technological Applications (Mundy)

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GHOSH, SOUMYA Nonlinear Frequency Generation in Periodically Poled Thin Film Lithium Niobate (Lončar)

HAO, ZEYU Emergent Quantum Phases of Electrons in Multilayer Graphene Heterostructures (Kim)

HARTIG, KARA Wintertime Cold Extremes: Mechanisms and Teleconnections with the Stratosphere (Tziperman)

LEE, SEUNG HWAN Spin Waves as New Probes for Graphene Quantum Hall Systems (Yacoby)

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OZTURK, SUKRU FURKAN A New Spin on the Origin of Biological Homochirality (Sasselov)

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SAYDJARI, ANDREW Statistical Models of the Spatial, Kinematic, and Chemical Complexity of Dust (Finkbeiner)

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"A Tale of 2-Spheres": How Conformal Symmetry, Chaos, and Some Elementary Algebra Led to Insights in Black Holes and Quantum Cosmology

3D Neutron Diffraction Studies on the Vortex Lattice

A Bayesian Approach to 21 cm Power Spectrum Estimation

A Measurement of the Top Quark Mass in the Lepton + Jets Channel using the Ideogram Technique at D\O\

A Multi-Dimensional Approach to the Characterization of Exoplanetary Atmospheres

A Next Generation Analysis Pipeline for 21cm Epoch of Reionization Studies

A Novel Swarming Bacterial Strain Exhibits Unique Biophysical and Probiotic Properties

A Pedagogical Demonstration/Lecture Plan for the Introduction of Gravitational Wave Astronomy

A Position-Sensitive Liquid Xenon Time-Projection Chamber for Direct Detection of Dark Matter: The XENON10 Experiment

A Search for Exotic Particles that Decay into a Higgs Boson and a Photon with the CMS Detector at the CERN LHC

A Search For Heavy Charged Higgs Bosons in the CMS Experiment

A search for long-lived particles that stop in the CMS detector and decay to muons

A vortex shedding model for unsteady fluid dynamics

Amorphous Germanium Nanostructures: Optical Characterization and Applications for Improved Photodetector Performance

An Absolute Calibration of Sub-1 keV Nuclear Recoils in Liquid Xenon Using D-D Neutron Scattering Kinematics in the LUX Detector

Analysis of brain signals with machine learning and information-theoretic methods

Analysis of Systematic Signals in the Epoch of Reionization Data from MWA

Analytic Quantum Chromodynamics: An Exact, Finite, Non-Perturbative, Gauge-Invariant, Realistic Model of QCD, with A Particular Choice of Renormalization with Applications to High Energy Elastic Proton-Proton Scattering.

Analytical Framework to Uncover Structural Signatures from All-Atom Molecular Dynamics Simulations

Anodic alumina as a scalable platform for structural coloration and optical rectification

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Theoretical physics articles from across Nature Portfolio

Theoretical physics is the development of mathematical formalisms and computational protocols for describing all aspects of objects found in the world around us and their interaction. This can involve both providing models for understanding empirical results or constructing self-logical theories for explain phenomena beyond current experiments.

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Wavefunction matching for solving quantum many-body problems

An approach called wavefunction matching transforms particle interactions so that their wavefunctions match those of easily computable interactions, to allow for calculations of quantum many-body systems that would otherwise be difficult or impossible.

• Serdar Elhatisari
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Microwave quantum memcapacitor effect

Nonlinear memory devices such as memristors, memcapacitors, and meminductors, are the building blocks of energy-efficient neuromorphic computing. Here, the authors propose a superconducting circuit design acting as a microwave quantum memcapacitor, which could be implemented in neuromorphic quantum computing architectures.

• Shubham Kumar
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Synthetic dimensions for topological and quantum phases

Quantum simulators study important models of condensed matter and high-energy physics. Research on synthetic dimensions has paved the way for studying exotic phenomena, such as curved space-times, topological phases of matter, lattice gauge theories, twistronics without a twist, and more

• Javier Argüello-Luengo
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Engineering holography with stabilizer graph codes

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Optimal quantum key distribution networks: capacitance versus security

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Quantum hypothesis testing—the task of distinguishing quantum states—enjoys surprisingly deep connections with the theory of entanglement. Recent findings have reopened the biggest questions in hypothesis testing and reversible entanglement manipulation.

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Scientific illustration: striking the balance between creativity and accuracy

A misleading image in a medical textbook could have life and death implications, but some disciplines can deploy myth and metaphor to convey their science through art.

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The gravity of quantum thermalization

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Supersymmetric renormalization group flow

Supersymmetric quantum field theories have special properties that make them easier to study. This Comment discusses how the constraints that supersymmetry places on renormalization group flows have been used to study strongly coupled field theories.

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The study of complexity of unitary transformations has become central to quantum information theory and, increasingly, quantum field theory and quantum gravity. A proof of how complexity grows with system size demonstrates the power of a geometric approach.

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Recent Submissions

Quantum nuclear motion in density functional theory , astrobiological potential of putative aqueous microenvironments on mars , single-cell study of the biophysics of bacteriophage infection , studies of exotic hadron states at the lhcb experiment , developing methods to machine-learn potentials with application to nitrogen , lattice determination of semi-leptonic, heavy-light meson decay form factors , development and application of pulse echo techniques to the study of charge density waves and superconductivity in pressurized u₆fe , β-decay properties of r-process nuclei in the vicinity of the n=126 shell closure , constraining quenching mechanisms at high redshift: the sizes, masses and star-formation histories of massive galaxies , interacting active particles and cellular automata: microscopic models of stochastic nonequilibrium systems , collective motion in active matter , first-principles calculations of anharmonic phonons in diamond and silicon at high temperature and pressure , measurement of local and microscale behaviour in dense suspensions of silica , search for long lived particles decaying into the semi leptonic di-tau final state with the atlas detector at the lhc , towards improved logarithmic descriptions of high energy processes involving jets in hadron colliders , exact steady states of minimal models of nonequilibrium statistical mechanics , understanding cosmic reionization: the escape fraction of lyman-continuum and lyman-alpha photons in high-redshift galaxies , multi-epoch machine learning for galaxy formation , theoretical and computational modelling of growing bacteria and bacteriophage , shining light on the invisible: the faint structures around galaxies in the local volume .

Undergraduate Contacts

Student Services Specialist

Director Undergraduate Studies

choosingphysics [at] stanford.edu (Pre-Major Advising)

Senior Thesis and Honors

All Physics majors who pursue research with a faculty member have the opportunity to complete a Senior Thesis. Completing a Senior Thesis is not required for a Bachelor’s degree in Physics but is required for graduation with Honors.

On this page, we provide guidelines for applying to graduate with Honors, applying to complete a Senior Thesis, choosing a thesis research topic, writing the Senior Thesis, and preparing the thesis presentation.

Honors Requirements

Physics majors are granted a Bachelor of Science in Physics with Honors if they satisfy these two requirements beyond the general Physics major requirements.

• The student completes a Senior Thesis by meeting the deadlines and requirements described in the Senior Thesis guidelines section below. 
• The student completes course work with an overall GPA of 3.30 or higher, and a GPA of 3.50 or higher in courses required for the Physics major.

The student applies for the Honors Program by completing an Honors Program Application Form by mid-May.  Eligibility is confirmed by the Director of Undergraduate Studies.

Senior Thesis Guidelines

• Students must submit a Senior Thesis Application Form once they identify a research project in consultation with a faculty member with whom they are conducting theoretical, computational, or experimental physics research. The application form is attached to this webpage and is also available from the Student Services Specialist. The application must be submitted by 4 pm on Friday prior to the Thanksgiving break of the academic year in which the student plans to graduate. 
• Credit for the project is assigned by the research advisor within the framework of PHYSICS 205 , Senior Thesis Research. A minimum of 3 units of PHYSICS 205 must be completed for a letter grade during the student’s Senior year. Work completed in the Senior Thesis program may not be used as a substitute for regular required courses for the Physics major.
• A written thesis and presentation of the work at its completion are required for the Senior Thesis. The Senior Thesis candidate is required to present the project at the department's Senior Thesis Presentation Program in mid to late May. The expectation is that the student's advisor, second reader, and all other Senior Thesis candidates attend. Students may invite their family and friends as guests. 

Timeline for Completing a Senior Thesis & Applying for Honors in Physics

• First week of October: Students receive information about Senior Thesis Application via email (sent from the Student Services Specialist).
• Mid-November, before Thanksgiving break: Senior Thesis Application is due by 4pm on the Friday before Thanksgiving break. No late submissions will be accepted. Students will be notified if their application is approved after Thanksgiving break.
• First week of April: Students sign up for a date/time to present their Senior Thesis; presentations are scheduled in May. At this point, you should have your thesis title and abstract ready for submission.
• Students present their Senior Thesis in front of their advisor, second reader, other presenters, and guests. 
• Students submit the final version of their Senior Thesis shortly after the presentation; the precise deadline will be announced in early May.
• Students who present their Senior Thesis AND meet the GPA requirements must complete the Honors Program Application by mid-May to graduate with Honors. 

Choosing a thesis topic and writing the thesis

No later than the autumn quarter of your senior year, but preferably earlier, during a summer research position.

No later than winter quarter of your senior year.

When you have completed your senior thesis, you should be an expert on the particular area of research discussed in your thesis. Some projects are independent of the advisor’s research; some projects are a well-defined sub-area within the advisor’s broader research program.

Your thesis advisor, as well as graduate students and/or postdocs with whom you have worked closely, can provide advice. The Hume Center for Writing and Speaking is also a useful resource:  http://undergrad.stanford.edu/tutoring-support/hume-center

Students normally find a Senior Thesis topic and advisor through the Summer Research Program. Other sources are courses such as Physics 59 (Frontiers in Physics Research), faculty web pages and resources on the Undergraduate Research and Independent Projects web page: https://undergrad.stanford.edu/opportunities/research

Broad “review articles” in the field and references therein provide valuable background information. Your advisor and group members should also be able to point you to relevant papers.

You are required to enroll in Physics 205 (Senior Thesis Research) under your advisors’ section during your senior year for a minimum of 3 units. The course must be taken for letter grade. 1 unit = 3 hours of research per week.

No, you cannot earn course credit and get paid for the same work.

An advisor may occasionally have funds to support you during the academic year, but you cannot earn course credit for the same work.

The following links contain information on how to apply for funding during the academic year and during the summer term – Student Grants:  https://undergrad.stanford.edu/opportunities/research/get-funded Physics Summer Research Program:  https://physics.stanford.edu/academics/undergraduate-students/summer-research

The length of the thesis varies, depending on the type of thesis. A more theoretical thesis, perhaps fairly dense with equations, may be shorter than an experimental thesis containing a number of figures showing the experimental setup, plots of the data, fits to the data, etc. Most theses are between 20 and 60 pages long.

Electronic versions of Physics Senior Theses written in 2010 or later are available online here: http://searchworks.stanford.edu/catalog?f[collection][]=ds247vz0452

The thesis should contain the following elements:

• A title page listing the title, the student author, the primary and secondary readers, and the date.
• An abstract, which could be on the title page or inside the document.
• An acknowledgment at the beginning or after the abstract.
• Table of contents.
• A body, divided into sections and subsections.
• A bibliography of references at the end. Include page numbers.

Each table should have a caption above the table and each figure should have a caption below the figure. Include a reference to each table and figure in the text.  If you have a large number of detailed plots, or a very long detailed derivation, consider putting it in an Appendix so that the text flows better.

One-and-a-half spacing is best. It makes it easier to read and easier for your readers to mark up.

Yes, but it must be physics related and you must have a faculty member in Physics as the second reader.

Yes, a literature review should be included.

Your target audience should be students in your major. Other Physics majors should be able to follow the thesis and understand what you did – although they might not follow all the details.

Yes, as long as you include a citation to the publication.

Several Stanford professors have done research based on the results of my research. May I include some of their results because they greatly enrich my overall project or does the thesis have to be 100% on data I took myself? It is definitely OK to include other data as long as you provide credit and appropriate citations.

Preparing the thesis presentation

It is typical to use slides prepared with the presentation software of your choice.

Students should bring their own laptop and any necessary adapters.

•  PRACTICE!!
• The   presentation s   are   15 minutes and 5 minutes for questions . The next presenter will be asked to set up at the 20-minute mark.
• Practice presenting from your laptop in the same room well before the actual presentation. In this way, you can avoid embarrassing delays due to technical problems or missing connectors, etc. Any technical delays will only reduce your speaking time.
• Make sure you start your presentation with an  accessible  overview. The audience will contain mainly non-experts in the field you are going to discuss. This is often the most difficult aspect of any presentation since you must bring along the non-experts while explaining later technical results and their importance without losing the audience.
• PRACTICE!! (A good strategy is to do timed 15-minute practice sessions in front of your classmates, especially those who will also be presenting a thesis. Encourage your audience to give you feedback and to ask questions afterward about anything that was not clear.)

Home > Sciences and Arts > Dept. of Physics > Dissertations, Master's Theses and Master's Reports

Dept. of Physics Dissertations, Master's Theses and Master's Reports

Explore our collection of dissertations, master's theses and master's reports from the Department of Physics below.

Theses/Dissertations/Reports from 2024 2024

APPLICATIONS OF INDEPENDENT AND IDENTICALLY DISTRIBUTED (IID) RANDOM PROCESSES IN POLARIMETRY AND CLIMATOLOGY , Dan Kestner

DEPENDENCE OF ENERGY TRANSFER ON CURVATURE SIMILARITY IN COLLISIONS INVOLVING CURVED SHOCK FRONTS , Justin Cassell

Study of Particle Accelerators in the Universe with the HAWC Observatory , Rishi Babu

Theses/Dissertations/Reports from 2023 2023

An exploration of cloud droplet growth by condensation and collision-coalescence in a convection-cloud chamber , Jacob T. Kuntzleman

A Search for Compact Object Dark Matter in the Universe Utilizing Gravitational Millilensing of Gamma-ray Bursts , Oindabi Mukherjee

Fabrication and Optical Properties of Two-Dimensional Transition Metal Dichalcogenides , Manpreet Boora

Large cloud droplets and the initiation of ice by pressure fluctuations: Molecular simulations and airborne in-situ observations , Elise Rosky

On Examining Solvation and Dielectric Constants of Polar and Ionic Liquids using the Stockmayer Fluid Model , Cameron J. Shock

PHYSICAL, OPTICAL, AND CHEMICAL PROPERTIES OF LIGHT ABSORBING AEROSOLS AND THEIR CLIMATIC IMPACTS , Susan Mathai

STUDY OF ELECTRONIC AND MAGNETIC PROPERTIES OF BILAYER GRAPHENE NANOFLAKES AND BIMETALLIC CHALCOGENIDES USING FIRST-PRINCIPLES DENSITY FUNCTIONAL THEORY AND MACHINE LEARNING , Dharmendra Pant

SURFACE RECONSTRUCTION IN IRON GARNETS , Sushree Dash

Tracing the Most Powerful Galactic Cosmic-ray Accelerators with the HAWC Observatory , Dezhi Huang

Theses/Dissertations/Reports from 2022 2022

A Combined Spectral and Energy Morphology Analysis of Gamma Ray Source HAWC J2031+415 in the Cygnus Constellation , Ian Herzog

APPLICATION OF ARGON PRESSURE BROADENED RUBIDIUM VAPOR CELLS AS ULTRA-NARROW NOTCH FILTERS , Sam Groetsch

A SURROGATE MODEL OF MOLECULAR DYNAMICS SIMULATIONS FOR POLAR FLUIDS: SUPERVISED LEARNING METHODS FOR MOLECULAR POLARIZATION AND UNSUPERVISED METHODS FOR PHASE CLASSIFICATION , Zackerie W. Hjorth

BORON NITRIDE NANOSTRUCTURES: SYNTHESIS, CHARACTERIZATION, AND APPLICATION IN PHOTOVOLTAICS AND BIOMEDICINE , Sambhawana Sharma

Machine Learning-Driven Surrogate Models for Electrolytes , Tong Gao

OPTICAL AND SINGLE PARTICLE PROPERTIES OF NORTH ATLANTIC FREE TROPOSPHERIC AEROSOLS AND IMPLICATIONS FOR AEROSOL DIRECT RADIATIVE FORCING , Megan Morgenstern

PRELIMINARY STUDIES OF BACKGROUND REJECTION CAPABILITIES FOR THE SOUTHERN WIDE−FIELD GAMMA−RAY OBSERVATORY , Sonali Mohan

SEARCHING FOR ANOMALOUS EXTENSIVE AIR SHOWERS USING THE PIERRE AUGER OBSERVATORY FLUORESCENCE DETECTOR , Andrew Puyleart

THEORETICAL INVESTIGATION ON OPTICAL PROPERTIES OF 2D MATERIALS AND MECHANICAL PROPERTIES OF POLYMER COMPOSITES AT MOLECULAR LEVEL , Geeta Sachdeva

THE VARIABILITY OF THE SATURATION RATIO IN CLOUDS , Jesse C. Anderson

TOWARD DEEP LEARNING EMULATORS FOR MODELING THE LARGE-SCALE STRUCTURE OF THE UNIVERSE , Neerav Kaushal

Theses/Dissertations/Reports from 2021 2021

A COMPUTATIONAL STUDY OF PROPERTIES OF CORE-SHELL NANOWIRE HETEROSTRUCTURES USING DENSITY FUNCTIONAL THEORY , Sandip Aryal

ACTIVATION SCAVENGING OF AEROSOL : EFFECT OF TURBULENCE AND AEROSOL-COMPOSITION , Abu Sayeed Md Shawon

APPLICATION OF GRAPHENE-BASED 2D MATERIALS AND EXPLORATION OF LITHIUM POLYSULFIDES SOLID PHASES – FIRST-PRINCIPLES STUDY BASED ON DENSITY FUNCTIONAL THEORY , Qing Guo

Control of spontaneous emission dynamics in microcavities with chiral exceptional surfaces , Amin Hashemi

Investigating ice nucleation at negative pressures using molecular dynamics: A first order approximation of the dependence of ice nucleation rate on pressure , Elise Rosky

Modeling and Numerical Simulations Of The Michigan Tech Convection Cloud Chamber , Subin Thomas

PHYSICOCHEMICAL PROPERTIES OF ATMOSPHERIC AEROSOLS AND THEIR EFFECT ON ICE CLOUD FORMATION , Nurun Nahar Lata

RADIAL BASIS FUNCTION METHOD FOR COMPUTATIONAL PHOTONICS , Seyed Mostafa Rezaei

UNDERSTANDING THE EFFECTS OF WATER VAPOR AND TEMPERATURE ON AEROSOL USING NOVEL MEASUREMENT METHODS , Tyler Jacob Capek

Van der Waals Quantum Dots: Synthesis, Characterization, and Applications , Amit Acharya

Theses/Dissertations/Reports from 2020 2020

Cosmic-Ray Acceleration in the Cygnus OB2 Stellar Association , Binita Hona

OPTICAL DISPERSION RELATIONS FROM THREE-DIMENSIONAL CHIRAL GOLD NANOCUBES IN PERIODIC ARRAYS , Manpreet Boora

Phase Resolved Analysis of Pulsar PSR J2032.2+4126 , Aishwarya Satyawan Dahiwale

Theses/Dissertations/Reports from 2019 2019

Aerosol-Cloud Interactions in Turbulent Clouds: A Combined Cloud Chamber and Theoretical Study , Kamal Kant Chandrakar

Energy Transfer Between Eu2+ and Mn2+ for Na(Sr,Ba)PO4 and Ba2Mg(BO3)2 , Kevin Bertschinger

INVESTIGATION OF LIGHT TRANSPORT AND SCATTERING IN TURBULENT CLOUDS: SIMULATIONS AND LABORATORY MEASUREMENTS , Corey D. Packard

Laser Induced Phase Transformations and Fluorescence Measurements from Nanodiamond Particles , Nick Videtich

Light-matter interactions in plasmonic arrays, two dimensional materials and their hybrid nanostructures , Jinlin Zhang

LIGHT PROPAGATION THROUGH A TURBULENT CLOUD: COMPARISON OF MEASURED AND COMPUTED EXTINCTION , Eduardo Rodriguez-feo Bermudez

LOCATION, ORBIT AND ENERGY OF A METEOROID IMPACTING THE MOON DURING THE LUNAR ECLIPSE OF JANUARY 21, 2019 & TESTING THE WEAK EQUIVALENCE PRINCIPLE WITH COSMOLOGICAL GAMMA RAY BURSTS , Matipon Tangmatitham

Physics and applications of exceptional points , Qi Zhong

Synthetic Saturable Absorber , Armin Kalita

The Solvation Energy of Ions in a Stockmayer Fluid , Cameron John Shock

UNDERSTANDING THE VERY HIGH ENERGY γ-RAY EMISSION FROM A FAST SPINNING NEUTRON STAR ENVIRONMENT , Chad A. Brisbois

Theses/Dissertations/Reports from 2018 2018

ANGLE-RESOLVED OPTICAL SPECTROSCOPY OF PLASMONIC RESONANCES , Aeshah Khudaysh M Muqri

Effects of Ionic Liquid on Lithium Dendrite Growth , Ziwei Qian

EFFECTS OF MASS AND DISTANCE UNCERTAINTIES ON CALCULATIONS OF FLUX FROM GIANT MOLECULAR CLOUDS , Matt Coel

Evaluating the Effectiveness of Current Atmospheric Refraction Models in Predicting Sunrise and Sunset Times , Teresa Wilson

FIRST-PRINCIPLES INVESTIGATION OF THE INTERFACIAL PROPERTIES OF BORON NITRIDE , Kevin Waters

Investigation of microphysical properties of laboratory and atmospheric clouds using digital in-line holography , Neel Desai

MAGNETLESS AND TOPOLOGICAL EDGE MODE-BASED ON-CHIP ISOLATORS AND SPIN-ORBIT COUPLING IN MAGNETO-OPTIC MEDIA , Dolendra Karki

MORPHOLOGY AND MIXING STATE OF SOOT AND TAR BALLS: IMPLICATIONS FOR OPTICAL PROPERTIES AND CLIMATE , Janarjan Bhandari

Novel Faraday Rotation Effects Observed In Ultra-Thin Iron Garnet Films , Brandon Blasiola

PROBING QUANTUM TRANSPORT IN THREE-TERMINAL NANOJUNCTIONS , Meghnath Jaishi

STUDY OF THE CYGNUS REGION WITH FERMI AND HAWC , Andrew Robare

Synthesis and Applications of One and Two-Dimensional Boron Nitride Based Nanomaterials , Shiva Bhandari

SYNTHESIS, CHARACTERIZATION, AND APPLICATION OF 2D TRANSITION METAL DICHALCOGENIDES , Mingxiao Ye

Theses/Dissertations/Reports from 2017 2017

CVD SYNTHESIS, PROCESSING, QUANTIFICATION, AND APPLICATIONS OF BORON NITRIDE NANOTUBES , Bishnu Tiwari

Gamma/Hadron Separation for the HAWC Observatory , Michael J. Gerhardt

LABORATORY, COMPUTATIONAL AND THEORETICAL INVESTIGATIONS OF ICE NUCLEATION AND ITS IMPLICATIONS FOR MIXED PHASE CLOUDS , Fan Yang

LABORATORY STUDIES OF THE INTERSTITIAL AEROSOL REMOVAL MECHANISMS IN A CLOUD CHAMBER , Sarita Karki

QUANTUM INSPIRED SYMMETRIES IN LASER ENGINEERING , Mohammad Hosain Teimourpour

Search for High-Energy Gamma Rays in the Northern Fermi Bubble Region with the HAWC Observatory , Hugo Alberto Ayala Solares

Synthetic Saturable Absorber Using Non-Uniform Jx Waveguide Array , Ashfiqur Rahman

The Intrinsic Variability of the Water Vapor Saturation Ratio Due to Mixing , Jesse Anderson

Theses/Dissertations/Reports from 2016 2016

FIRST-PRINCIPLES STUDIES OF GROUP IV AND GROUP V RELATED TWO DIMENSIONAL MATERIALS , Gaoxue Wang

INVESTIGATION OF THE RESISTANCE TO DEMAGNETIZATION IN BULK RARE-EARTH MAGNETS COMPRISED OF CRYSTALLOGRAPHICALLY-ALIGNED, SINGLE-DOMAIN CRYSTALLITES WITH MODIFIED INTERGRANULAR PHASE , Jie Li

LABORATORY MEASUREMENTS OF CONTACT NUCLEATION BY MINERAL DUSTS, BACTERIA, AND SOLUBLE SALTS , Joseph Niehaus

Studies of invisibility cloak based on structured dielectric artificial materials , Ran Duan

Testing Lidar-Radar Derived Drop Sizes Against In Situ Measurements , Mary Amanda Shaw

Reports/Theses/Dissertations from 2015 2015

A METHOD FOR DETERMINING THE MASS COMPOSITION OF ULTRA-HIGH ENERGY COSMIC RAYS BY PREDICTING THE DEPTH OF FIRST INTERACTION OF INDIVIDUAL EXTENSIVE AIR SHOWERS , Tolga Yapici

BARIUM CONCENTRATIONS IN ROCK SALT BY LASER INDUCED BREAKDOWN SPECTROSCOPY , Kiley J. Spirito

FUNCTIONALIZED BORON NITRIDE NANOTUBES FOR ELECTRONIC APPLICATIONS , Boyi Hao

GEOMETRY INDUCED MAGNETO-OPTIC EFFECTS IN LPE GROWN MAGNETIC GARNET FILMS , Ashim Chakravarty

LABORATORY AND FIELD INVESTIGATION OF MIXING, MORPHOLOGY AND OPTICAL PROPERTIES OF SOOT AND SECONDARY ORGANIC AEROSOLS , Noopur Sharma

MULTISCALE EXAMINATION AND MODELING OF ELECTRON TRANSPORT IN NANOSCALE MATERIALS AND DEVICES , Douglas R. Banyai

RELATIVISTIC CONFIGURATION INTERACTION CALCULATIONS OF THE ATOMIC PROPERTIES OF SELECTED TRANSITION METAL POSITIVE IONS; NI II, V II AND W II , Marwa Hefny Abdalmoneam

SEARCH FOR LONG-LIVED WEAKLY INTERACTING PARTICLES USING THE PIERRE AUGER OBSERVATORY , Niraj Dhital

Search for TeV Gamma-Ray Sources in the Galactic Plane with the HAWC Observatory , Hao Zhou

STUDY OF NON-RECIPROCAL DICHROISM IN PHOTONIC STRUCTURES , Anindya Majumdar

UNDERSTANDING ELECTRONIC STRUCTURE AND TRANSPORT PROPERTIES IN NANOSCALE JUNCTIONS , Kamal B. Dhungana

Reports/Theses/Dissertations from 2014 2014

A THEORETICAL STUDY OF INTERACTION OF NANOPARTICLES WITH BIOMOLECULE , Chunhui Liu

INVESTIGATING THE ROLE OF THE CONTACT LINE IN HETEROGENEOUS NUCLEATION WITH HIGH SPEED IMAGING , Colin Gurganus

MORPHOLOGY AND MIXING STATE OF ATMOSPHERIC PARTICLES: LINKS TO OPTICAL PROPERTIES AND CLOUD PROCESSING , Swarup China

QUANTUM CORRELATIONS OF LIGHTS IN MACROSCOPIC ENVIRONMENTS , Yong Meng Sua

THE THREE DIMENSIONAL SHAPE AND ROUGHNESS OF MINERAL DUST , Xinxin Woodward

Reports/Theses/Dissertations from 2013 2013

ADVENTURES IN FRIEDMANN COSMOLOGIES---INTERACTION OF POSITIVE ENERGY DENSITIES WITH NEGATIVE ENERGY DENSITIES AND CURVATURE OF THE UNIVERSE , Ravi Joshi

ELECTRON TRANSPORT IN LOW-DIMENSIONAL NANOSTRUCTURES - THEORETICAL STUDY WITH APPLICATION , Xiaoliang Zhong

Investigations of Cloud Microphysical Response to Mixing Using Digital Holography , Matthew Jacob Beals

MAGNETO-PHOTONIC CRYSTALS FOR OPTICAL SENSING APPLICATIONS , Neluka Dissanayake

NONLINEAR EFFECTS IN MAGNETIC GARNET FILMS AND NONRECIPROCAL OPTICAL BLOCH OSCILLATIONS IN WAVEGUIDE ARRAYS , Pradeep Kumar

OPTIMAL SHAPE IN ELECTROMAGNETIC SCATTERING BY SMALL ASPHERICAL PARTICLES , Ajaree Mongkolsittisilp

QUADRUPOLE LEVITATION OF PARTICLES IN A THERMODYNAMICALLY REALISTIC CLOUD ENVIRONMENT , Nicholas A. Black

STOCHASTIC CHARGE TRANSPORT IN MULTI-ISLAND SINGLE-ELECTRON TUNNELING DEVICES , Madhusudan A. Savaikar

Reports/Theses/Dissertations from 2012 2012

Calibration of the HAWC Gamma-Ray Observatory , Nathan C. Kelley-Hoskins

Charge and spin transport in nanoscale junction from first principles , Subhasish Mandal

Measurements of ice nucleation by mineral dusts in the contact mode , Kristopher W. Bunker

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M.Sc. and PhD Theses

Büchler Group

• Quantum Fluctuations and Appearance of Supersolidity in Confined Ultracold Atomic Gases Tobias Ilg, PhD Thesis (2023)
• Functional Rydberg Complexes in the PXP-Model Simon Stastny, Master Thesis (2023)
• Quantum Hall Tunneling of Cold Atomic Gases Daniel Bidlingmaier, Master Thesis (2023)
• Photon correlations and collective phenomena with Rydberg superatoms Kevin Kleinbeck, PhD Thesis (2022)
• Spin 1 Haldane phase in one-dimensional systems of Rydberg atoms Johannes Mögerle, Master Thesis (2022)
• Accurate Quantum Simulations with Rydberg Atoms Sebastian Weber, PhD Thesis (2021)
• Properties of a supersolid in one dimension: Study on the algebraic decay of correlation functions and the stability analysis of the supersolid phase Chris Bühler, Master Thesis (2021)
• Collective Effects of Light-Matter Interactions in Rydberg Superatoms Jan Kumlin, PhD Thesis (2021)
• Symmetry Protected Topological Phases for Interacting Bosons Felix Roser, Master Thesis (2019)
• One-Dimensional Topological States of Synthetic Quantum Matter Nicolai Lang, PhD Thesis (2019)
• Quantum Phases of Water Molecules in Nano-cavities Luka Jibuti, Master Thesis (2018)
• Quantum Monte Carlo studies of strongly correlated systems for quantum simulators Stephan Humeniuk, PhD Thesis (2018)
• Quantum Corrections in Cold Dipolar Gases Tobias Ilg, Master Thesis (2017)
• Quantum Light Interaction with Superatoms Kevin Kleinbeck, Master Thesis (2017)
• Topological Order in 1-Dimensional Quantum Dipolar Gases Yuan Miao, Master Thesis (2017)
• Few-body quantum physics with strongly interacting Rydberg polaritons Dr. Przemyslaw Bienias, PhD Thesis (2016)
• Topological edge states in a one-dimensional ladder system Kai-Simon Guther, Master Thesis (2016)
• Quantum Simulator for Spin-Orbital Magnetism Dr. Adam Bühler, PhD Thesis (2016)
• Topological bands in cold gases Sebastian Weber, Master Thesis (2015)
• Quantum states with topological properties via dipolar interactions Dr. David Peter, PhD Thesis (2015)
• Phase transitions and topological phases by driven dissipation Nicolai Lang, Master Thesis (2013)
• Strongly Interacting Many-Body Systems in Cold Atomic Gases Dr. Jens Honer, PhD Thesis (2013)
• Spin density waves in bilayer cold polar molecules Amin Naseri Jorshari, MSc Thesis (2012)
• Ferroelectricity and quantum phase transition in cold polar molecules Markus Klinsmann, Diploma Thesis (2011)
• Dissipative Quantum Phase Transition in Cold Atomic Gases Elke Klug, Diploma Thesis (2011)
• Supersolid phases in cold atomic gases Dr. Adam Bühler, Diploma Thesis (2011)
• Quantum many-body physics with strongly interacting Rydberg atoms Dr. Hendrik Weimer, PhD Thesis (2010)
• Quantum phase transitions with polar molecules: Towards the realization of ferro-electric liquids Steffen Müller, Diploma Thesis (2010)
• Scattering properties of quantum degenerate atomic gases Alexander Janisch, Diploma Thesis (2009)
• Phase Transitions in Quantum Condensed Matter Prof. Dr. Hans Peter Büchler, PhD Thesis, ETH Zürich (2003)

Previous Master Theses in Theoretical Physics

Below you can find a list of defended Master Theses at the Division of Theoretical Physics. For more detailed information you can follow the links to the Diva Portal  which also contains the full text of the theses.

Feynman Diagrams and Map Enumeration

Author:  August Egebrand Supervisor:   Maxim Zabzine Full Text

Tree Level N-Point Amplitudes in String Theory

Author:  John Paton Supervisor:   Joseph Minahan Full Text

Geometry of Contact Toric Manifolds in 3D

Author:  Nikolaos Iakovidis Supervisor:   Jian Qiu Full Text

Localization Techniques, Yang-Mills Theory and Strings

Author:  Linnea Svensk Supervisor:   Maxim Zabzine Full Text

An Investigation of RNA using the Discrete Frenet Frame

Author:  Daniel Neiss Supervisor:   Antti Niemi Full Text

Compactification of D=11 supergravity on S 4 xT 3

Author:  Christian Käding Supervisor:  Giuseppe Dibitetto Full Text

On the metastability of the Standard Model

Author:  Sebastian Baum Supervisor:   Joseph Minahan Full Text

Equivariant Cohomology and Localisation

Author:  Jaume Alonso i Fernández Supervisor:   Maxim Zabzine Full Text

Index Theorems and Supersymmetry

Author:  Andreas Eriksson Supervisor:   Maxim Zabzine Full Text

Mass limits for 5-dimensional super Yang-Mills

Author:  Umberto Borla Supervisor:   Joseph Minahan Full Text

Geometry of BV Quantization and Mathai-Quillen Formalism

Author:  Luigi Tizzano Supervisor:   Maxim Zabzine Full Text

(Conformal) Supersymmetric sigma models in low dimensions

Author:  Thomas Halvarsson Supervisor:   Ulf Lindström Full Text

Bundles and Gauges, a Math-Physics Duality – the case of Gravity

Author:  David Mendes Supervisor:   Ulf Lindström Full Text

Supersymmetric Quantum Mechanics and Integrability

Author:  Fredrik Engbrant Supervisor:   Maxim Zabzine Full Text

Quantum Computers and Factoring

Author:  Pontus Leitz Supervisor:  Konstantin Zarembo Full Text

Generation of the Bound Entangled Smolin State and Entanglement Witnesses for Low-Dimensional Unitary Invariant States

Author:  Emil Nordling Supervisor:  Mohamed Bourennane Full Text

Supersymmetric Quantum Mechanics

Author:  Muhammed Wasay Supervisor:   Maxim Zabzine Full Text

Dark matter: experimental evidence, relic density, and the supersymmetric candidate

Author:  Benjamin Audren Supervisor:  Konstantin Zarembo Full Text

Applications of Supergeometry

Author:  José Eliel Camargo Supervisor:   Maxim Zabzine Full Text

The geometry of supersymmetric non-linear sigma models in D≤2 dimensions

Author:  Malin Göteman Supervisor:   Ulf Lindström Full Text

Auxiliary Fields in Supersymmetric Sigma Models and the relation to Complex Geometry

Author:  Johan Källén Supervisor:   Ulf Lindström Full Text

A survey into Protein Folding Curves and Energy Functions

Author:  Martin Lundgren Supervisor:   Antti Niemi Full Text

The Black hole information paradox and the trace anomaly

Author:  Markus Johansson Supervisor:   Joseph Minahan Full Text

The Grassmannian σ-model in SU(2) Yang-Mills Theory

Author:  David Marsh Supervisor:   Antti Niemi Full Text

Fermi gas close to unitarity: ε-expansion

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Welcome to the Institute for Theoretical Physics (ITP)

Bachelor's & Master's Theses at the ITP

If you are interested in doing your Bachelor's or Master's thesis on the topic of theoretical particle physics at the ITP, feel free to drop by on the 12th floor and talk to us or send us an e-mail . To get an idea of what we are working on, you can check out the research page of each group, or you can have a look at the completed Bachelor's and Master's theses at our institute.

Job Openings

For open PhD or postdoc positions at the ITP, check the Job Openings page or the News & Events ticker below.

News & Events

Research groups at the institute for theoretical physics.

The Institute for Theoretical Physics (ITP) consists of five research groups. Their activities are described below.

• Introduction

Harvard Griffin GSAS strives to provide students with timely, accurate, and clear information. If you need help understanding a specific policy, please contact the office that administers that policy.

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Questions about these requirements? See the contact info at the bottom of the page. 

Doctor of Philosophy (PhD)

The graduate program in physics accepts applications only for the PhD degree. Although many graduate students earn a continuing AM (Master of Arts) degree along the way to completing their PhDs, the department does not accept applications specifically for terminal AM degrees.

Incoming graduate students are not technically candidates for the PhD degree until they have completed a set of candidacy requirements. Before obtaining a PhD, students must satisfy two sets of requirements—one for official doctoral candidacy and another for the PhD degree itself.

Although no two PhD students follow precisely the same path, students should keep in mind the following general timeline, with details to be explained in later sections:

• During both terms of the first year, students’ tuition, fees, and stipends are covered by either Harvard’s Purcell Fellowship or outside sources of funding, and students should devote their attention to coursework and getting acquainted with research groups. All students should consult regularly with their individually assigned academic advisors in planning a program of study and research.
• In the spring term of the first year, as part of their training in teaching and presentation skills, students are required to enroll in Physics 302A: Teaching and Communicating Physics.
• In the summer after the first year, students arrange for their own funding. For those without external fellowships, options include research assistantships (RAs) with research groups, teaching fellowships (TFs) with summer courses, or attending summer schools and conferences.
• For students in their second year who do not have an external fellowship, the department covers tuition and fees but not salaries. Therefore, starting in the second year, a student without outside funding should plan on securing either a research assistantship (RA) or a teaching fellowship (TF) each semester. Students typically use their second year to complete their required coursework and transition into a research group.
• During the second year, students should make sure to complete most of their required course requirements. They should also organize a three-member faculty committee—ideally chaired by their prospective thesis advisor—and take the qualifying oral examination. After completion of the examination and acceptance by a thesis advisor, the student has fulfilled the requirements for official candidacy for the PhD degree.
• For students in their third and later years who do not have an external fellowship, tuition and fees as well as salaries are covered by research assistantships (RAs) or teaching fellowships (TFs).
• Once the student has completed the requirements for candidacy—ideally by the end of the second year but certainly before the end of the third year—the student should proceed with a research program that eventually culminates in a thesis. Toward the end of each year, following the qualifying exam or after the third year (whichever comes first), students should submit annual progress reports to their faculty committees for review.
• After joining a research group, students typically receive their summer funding by working in a research assistantship (RA) with that group.
• Each student is required to serve as a teaching fellow (TF) at least one fall or spring term during the course of the PhD program. Note: To fulfill this requirement, the TF position should consist of at least 15 hours per week (three eights-time) and involve a teaching component and not merely grading.
• After writing a thesis under the guidance of a thesis advisor, typically by the end of the fifth or sixth year, the student presents the thesis to a dissertation committee of three faculty members in a final dissertation defense. Once the completed thesis is submitted, the student has fulfilled the requirements for the doctoral degree.

The First Two Years

The department assigns each incoming graduate student a faculty academic advisor to help the student make decisions about coursework and research opportunities. Each student is free to choose a new advisor at any subsequent time, but should inform the graduate program administrator of such a change after obtaining the new advisor’s consent. In particular, by the end of the second year, the student should choose an advisor who will supervise the student’s thesis.

In planning a program, students should study the catalogue of  Courses of Instruction  offered by the Faculty of Arts and Sciences, as well as the description in the Programs of Study. After drawing up a tentative program, students should discuss it with their faculty advisors. Students are also welcome to discuss their plans at any time with the Director of Graduate Studies.

Course Record

Students who propose to present theses in experimental fields should demonstrate promise in experimental work and a satisfactory understanding of theoretical physics. Applicants for candidacy in theoretical physics should demonstrate strength in courses of a mathematical nature and a satisfactory acquaintance with experimental aspects of physics. Detailed course requirements are given below under Program of Study. Note that awarding of the continuing AM degree does not automatically qualify the student as a candidate for the PhD.

Program of Study (Credit and Course Requirements)

Each student is required to accumulate a total of sixteen four-credit courses of credit, which can include any combination of 200- or 300-level Harvard courses in physics and related fields, graduate-level courses taken by official cross-registration at MIT, and units of Physics 300r (research time) or Physics 300c (course time). These sixteen four-credit courses may overlap with some of the eight required four-credit courses for the optional continuing AM degree.

In fulfilling this requirement, students must obtain grades of B- or better in eight four-credit courses specified as follows:

• Four   mandatory   core courses:  Four mandatory core courses: Physics 251A or a qualifying alternative from the department's official list, and Physics 251B, and Physics 232 or Applied Physics 216 or Engineering Sciences 273, and Physics 262 or Applied Physics 284.
• Four elective courses:  Four additional four-credit courses drawn from the  department's official list , with, at most, two four-credit courses in any one field. Note: Not all courses listed are given every year, and course offerings, numbers, and contents sometimes change. Students therefore should confer with their advisors or with the chair of the Committee on Higher Degrees about their program of study.

Course Descriptions:   Courses of Instruction

Other Fields:  With the approval of the Committee on Higher Degrees, a student may use 200-level courses or fields not officially listed. In place of demonstrating proficiency by satisfactory course performance, a student may also demonstrate proficiency by an oral examination, by submitting evidence of satisfactory work in appropriate courses taken at other institutions, or by other means deemed satisfactory by the Committee on Higher Degrees. Students wishing to utilize this option should submit a petition to the Committee on Higher Degrees before the end of their first year of Harvard graduate school.

The general requirements outlined above are a minimum standard and students will usually take additional courses in their selected fields as well as in others. A student need not fulfill all course requirements before beginning research.

As a result of an exchange agreement between the universities, graduate students in physics at Harvard may also enroll in lecture courses at the Massachusetts Institute of Technology. The procedure is outlined under “ Cross-Registration "

Physics 247, equivalent laboratory experience, or an oral examination on an experimental topic is a required part of the PhD program for all students who do not submit a thesis that demonstrates experimental proficiency. Students who wish to fulfill this requirement by equivalent laboratory experience or an oral examination should obtain approval of the Committee on Higher Degrees no later than the end of their third year of residence. Students planning on submitting a thesis in theoretical astrophysics may instead satisfy this requirement by taking Astronomy 191 with the approval of the Committee on Higher Degrees.

In addition to research assistantships (RAs), teaching fellowships (TFs) are important sources of support for graduate students after their first year. Because of the importance of teaching skills for a successful physics career, two terms as a TF are required of all graduate students, generally within the first five years of study. This teaching experience provides an opportunity for students to develop the communication skills that are vital for careers in academics and industry.

To fulfill the teaching requirement, students must serve as a teaching fellow at least two fall or spring terms for at least 15 hours per week (three eights-time). The TF position should involve a teaching component and not merely grading.

There is no formal language requirement for the PhD in physics. Students are nonetheless advised that knowledge of certain foreign languages is extremely useful in many fields of physics.

Faculty Committee

By the end of the second year, each student is required to select a faculty chair for a committee to advise the student on the student's research progress. The committee chair is normally one of the department members and, when feasible, a prospective thesis advisor. Under the advisement of the faculty chair, the student should also select two more faculty members to bring the total to three, at least two of whom should be members of the Department of Physics. Selection of the committee, as well as subsequent changes to the committee, require the approval of the Director of Graduate Studies.

Qualifying Oral Examination

Each student is also expected to pass an oral examination given by the student's faculty committee, ideally by the end of the second year, and certainly by the end of the third year. The purpose of the examination is two-fold: The examination aids in estimating the candidate’s potential for performing research at a level required for the doctoral thesis, and also serves as a diagnostic tool for determining whether the candidate requires changes to the program of research and study.

For the examination, each student is asked to select, prepare, and discuss in depth a topic in physics and to answer questions from the faculty committee about that topic specifically and more broadly about the student’s larger subfield. Originality is encouraged but not required.

The student selects the topic—preferably, but not necessarily, related to the proposed field of thesis research—and then submits a title and abstract together with a list of completed course requirements (described above under Program of Study) and a decision as to whether the prospective doctoral research will be experimental or theoretical. The student then confers in detail with the committee chair about the topic to be discussed and concrete expectations for the examination. The committee chair provides approval of the topic, and the overall composition of the examination committee must be approved by the Director of Graduate Studies. To ensure adequate preparation, this conference should take place at the earliest possible date, typically one to two months before the examination.

Oral examinations are evaluated on the knowledge and understanding students demonstrate about their chosen topic and their general subfield. Students are also judged on the clarity and organization of their expositions. The examining committee may take into account other information about the candidate’s performance as a graduate student.

The student will pass the examination if the committee believes that the student has demonstrated adequate comprehension of physics in the area of the chosen topic and in the larger field, as well as an ability to perform the thesis research required for the doctoral degree. Students who do not pass the qualifying oral examination on their first attempt will be given instructions for improvement and encouraged by the committee to take a second examination at a later date.

The committee may, upon petition, grant a deferment of the examination for up to one year. Students who have not passed their oral examinations by the end of their third year of graduate study must seek approval from the Committee on Higher Degrees prior to being allowed to register for a fourth year of graduate study. If satisfactory arrangements cannot be made, the student will be withdrawn by the department. A student who wishes to change from an experimental to a theoretical thesis topic, or vice versa, may be required to pass a second qualifying oral examination.

Acceptance as a Candidate for the PhD

The final requirement for acceptance as a doctoral candidate is the formal acceptance by a suitable thesis advisor who should be a faculty member of the Department of Physics or a related department. This requirement should be met soon after the oral examination is passed.

Sometimes students may wish to do a substantial portion of their thesis research under the supervision of someone who is not a faculty member of the Department of Physics or a related department. Such an arrangement must have the approval of both the student’s official departmental advisor and that of the Committee on Higher Degrees and the department chair.

Year Three and Beyond

In order to become acquainted with the various programs of research in progress and promising areas for thesis research, students should attend seminars and colloquia and consult with their faculty advisors and upper-level graduate students. A list of the current faculty and their research programs is available  online .

Academic Residence

Ordinarily, a candidate must be enrolled and in residence for at least two years (four terms) of full-time study in the Harvard Kenneth C. Griffin Graduate School of Arts and Sciences (GSAS). Ideally, the PhD is completed within six years. The student’s committee reviews the student's progress each year. For financial residence requirements, see Financial Aid .

Criteria for Satisfactory Progress

In addition to the guidelines specified by Harvard Griffin GSAS, the physics department identifies satisfactory progress for graduate students by several key criteria.

Upon successful completion of the qualifying oral examination, the student must arrange for the appointment of a faculty committee that will monitor the progress of the student thereafter. The student must be accepted by an appropriate thesis advisor within eighteen months after passing the qualifying oral examination.

During each subsequent year, the student must submit a progress report in the form specified by the Committee on Higher Degrees. The progress report must be approved by the student’s faculty committee and the Committee on Higher Degrees, who will evaluate the student’s progress toward the completion of the degree. The Committee on Higher Degrees will examine with special care students beyond their fifth year.

For other types of extensions or leave-of-absence policies, consult the Registration section of Policies.

Dissertation Defense

Toward the end of the student’s thesis research, the student should arrange a dissertation committee, which consists of at least three faculty members and is chaired by a member of the Harvard Department of Physics. At least two members of the dissertation committee, including the chair, must be members of the Faculty of Arts and Sciences (FAS). A non-FAS thesis advisor should be a member of the dissertation committee, but cannot serve as its official chair.

The dissertation defense consists of an oral final examination delivered to the dissertation committee that involves a searching analysis of the student’s thesis. If the student’s coursework does not indicate a wide proficiency in the field of the thesis, the examination may be extended to test this proficiency as well.

The candidate must provide draft copies of the completed thesis for members of the dissertation committee at least three weeks in advance of the examination. See the Dissertation section of Policies for detailed requirements.

Master of Arts (AM)

The Department of Physics does not admit graduate students whose sole purpose is to study for the Master of Arts (AM) degree. However, the AM degree is frequently taken by students who continue on for the PhD degree. For those who do not attain the doctorate, the AM degree attests to the completion of a full year’s study beyond the bachelor’s degree.

Program of Study (Credit Requirements)

Eight four-credit courses taken while enrolled at Harvard are required for the continuing AM degree. At least four must be physics courses, and ordinarily all must be in physics or related fields like applied physics, applied math, chemistry, biophysics, engineering, or astronomy. Not more than two four-credit courses may be from the 100-level listing, “for undergraduates and graduates,” and ordinarily not more than one four-credit course may be from the 300-level group, “Reading and Research.” The remainder must be from the 200 level, “primarily for graduates,” or graduate-level courses taken by official cross-registration at MIT. There is no limit on the number of the eight four-credit courses taken at MIT.

With the permission of their advisors and with the approval of the Committee on Higher Degrees, students may substitute 300-level courses for more than one of the required eight four-credit courses. For students who were previously undergraduates at Harvard College, only bracketed courses taken as an undergraduate can count toward the AM degree. Courses counted toward the AM degree are also counted toward the PhD.

All four-credit courses counted toward the AM degree must be passed with a grade of C- or better, and a B average must be obtained in these courses. (In calculating the average, a grade of C is offset by a grade of A; no account is taken of pluses or minuses.)

No thesis, general examination, or knowledge of a foreign language is required for the AM degree. The minimum residence requirement is one year.

Students in Harvard College who are pursuing the AB/AM degree must complete the advanced laboratory course, either as Physics 191 for the AB degree (if fulfilling the honors physics track) or as Physics 247 for the AM degree (if not fulfilling the honors physics track). For students pursuing an AB concentration other than the Physics concentration or the Chemistry and Physics concentration, seven of the eight courses for the AM must be physics courses.

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Physical Chemistry Chemical Physics

Advanced theoretical design of light-driven molecular rotary motors: enhancing thermal helix inversion and visible-light activation †.

* Corresponding authors

a Graduate School of Chemical Sciences and Engineering, Hokkaido University, Sapporo 060-0810, Japan

b Ministry of Education Key Laboratory for Nonequilibrium Synthesis and Modulation of Condensed Matter, Shaanxi Province Key Laboratory of Quantum Information and Quantum Optoelectronic Devices, School of Physics, Xi’an Jiaotong University, Xi’an 710049, China E-mail: [email protected]

c Department of Chemistry, Faculty of Science, Hokkaido University, Sapporo 060-0810, Japan E-mail: [email protected]

d Institute for Chemical Reaction Design and Discovery (WPI-ICReDD), Hokkaido University, Sapporo 001-0021, Japan

In this study, we have advanced the field of light-driven molecular rotary motors (LDMRMs) by achieving two pivotal goals: lowering the thermal helix inversion (THI) barrier and extending the absorption wavelength into the visible spectrum. This study involves the structural reengineering of a second-generation visible LDMRM, resulting in the synthesis of a novel class, specifically, 2-((2 S )-5-methoxy-2-methyl-2,3-dihydro-1 H -cyclopenta[ a ]naphthalen-1-yl)-3-oxo-2,3-dihydro-1 H -dibenzo[ e , g ]indole-6,9-dicarbonitrile. This redesigned motor stands out with its two photoisomerization stages and two thermal helix inversions, featuring exceptionally low THI barriers (4.00 and 2.05 kcal mol −1 at the OM2/MRCI level for the EM → EP and ZM → ZP processes, respectively). Moreover, it displays absorption wavelengths in the visible light range (482.98 and 465.76 nm for the EP and ZP isomers, respectively, at the TD-PBE0-D3/6-31G(d,p) level), surpassing its predecessors in efficiency, as indicated by the narrow HOMO–LUMO energy gap. Ultrafast photoisomerization kinetics (approximately 0.8–1.6 ps) and high quantum yields (around 0.3–0.6) were observed through trajectory surface hopping simulations. Additionally, the simulated time-resolved fluorescence emission spectrum indicates a significantly reduced “dark state” duration (0.09–0.26 ps) in these newly designed LDMRMs compared to the original ones, marking a substantial leap forward in the design and efficiency of LDMRMs.

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Advanced theoretical design of light-driven molecular rotary motors: enhancing thermal helix inversion and visible-light activation

W. Shi, J. Ma, C. Jiang and T. Taketsugu, Phys. Chem. Chem. Phys. , 2024, Advance Article , DOI: 10.1039/D4CP00037D

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A physicists’ guide to the ethics of artificial intelligence

Physics may seem like its own world, but different sectors using machine learning are all part of the same universe. 

In 2017, Savannah Thais attended the NeurIPS machine-learning conference in Long Beach, California, hoping to learn about techniques she could use in her doctoral work on electron identification. Instead, she returned home to Yale with a transformed worldview.

At NeurIPS, she had listened to a talk by artificial intelligence researcher Kate Crawford, who discussed bias in machine-learning algorithms. She mentioned a new study showing that facial-recognition technology, which uses machine learning, had picked up gender and racial biases from its dataset: Women of color were 32% more likely to be misclassified by the technology than were White men. 

The study, published as a master’s thesis by Joy Adowaa Buolamwini, became a landmark in the machine-learning world, exposing the ways that seemingly objective algorithms can make errors based on incomplete datasets. And for Thais, who’d been introduced to machine learning through physics, it was a watershed moment.

“I didn’t even know about it before,” says Thais, now an associate research scientist at the Columbia University Data Science Institute. “I didn’t know these were issues with the technology, that these things were happening.”

After finishing her PhD, Thais pivoted to studying the ethical implications of artificial intelligence in science and in society. Such work often focuses on direct impacts on people, which can seem entirely separate from algorithms designed to, say, identify the signature of a Higgs boson in a particle collision against a mountain of noise. 

But these issues are interwoven with physics research, too. Algorithmic bias can influence physics results, particularly when machine-learning methods are used inappropriately. 

And work done for the purpose of physics likely won’t stay in physics. By pushing machine-learning technology ahead for science, physicists are also contributing to its improvement in other areas. “When you’re in a fairly scientific context, and you’re thinking, ‘Oh, we’re building these models to help us do better physics research,’ it’s pretty divorced from any societal implications,” Thais says. “But it’s all really part of the same ecosystem.” 

Trusting your models

In traditional computer models, a human tells the program each parameter it needs to know to make a decision—for example, the information that a proton is lighter than a neutron can help a program tell the two types of particles apart.  

Machine-learning algorithms, on the other hand, are programmed to learn their own parameters from the data they’re given. An algorithm can come up with millions of parameters, each one with its own “phase space,” the set of all possible iterations of that parameter.

Algorithms don’t treat every phase space the same way. They weight them differently according to their usefulness to the task the algorithm is trying to accomplish. Because this weighting isn’t decided directly by humans, it is easy to imagine that making decisions by algorithm could be a way to remove human bias. But humans do still add their input to the system, in the form of the dataset that they give the algorithm to train on.

In her thesis, Buolamwini analyzed an algorithm that created parameters for facial recognition based on a dataset comprised largely of photos of White people, mostly men. Because the algorithm had a variety of examples of White men, it was able to come up with a good rubric for differentiating between them. Because it had fewer examples of people of other ethnicities and genders, it did a worse job differentiating between them.

Facial-recognition technology can be used in a variety of ways. For example, facial-recognition technology can be used to verify someone’s identity; many people use it every day to unlock their smart phones. Buolamwini gives other examples in her thesis, including “developing more empathetic human-machine interactions, monitoring health, and locating missing persons or dangerous criminals.”

When facial-recognition technology is used in these contexts, its failure to work equally well for all people can have a range of consequences, from the frustration of being denied access to a convenience, to the danger of being misdiagnosed in a medical setting, to the threat of being falsely identified and arrested. “Characterizing how your model works across phase space is both a scientific and an ethical question,” Thais says.

Cosmologist Brian Nord has been thinking about this for years. He began using machine learning in his work in 2016, when he and his colleagues realized machine-learning models could classify objects observed by telescopes. Nord was particularly interested in algorithms that could decode the weirdness of light bending around celestial bodies, a phenomenon known as gravitational lensing. Because such models excel at classifying items based on existing data, they can identify the stars and galaxies in images far better than a human can.

But other uses of machine learning for physics are far less trustworthy, says Nord, a scientist in Fermilab’s AI Project Office and Cosmic Physics Center. Where a traditional program has a limited number of parameters that physicists can manually tweak to get correct results, a machine-learning algorithm uses millions of parameters that often don’t correspond to real, physical characteristics—making it impossible for physicists to correct them. “There is no robust way to interpret the errors that come out of an AI method that we can look at in terms of how we think of statistics in physics,” Nord says. “That is not a thing that exists yet.”  

If physicists aren’t aware of these issues, they may use models for purposes beyond their capabilities, potentially undermining their results. 

Nord is working to push machine-learning capabilities to aid with all steps of the scientific process, from identifying testable hypotheses and improving telescope design to simulating data. He envisions a not-too-distant future where the physics community can conceive of, design, and execute large-scale projects in far less time than the decades such experiments currently take. 

But Nord is also keenly aware of the potential pitfalls of driving machine-learning technology forward. The image-recognition algorithm that enables a cosmologist to distinguish a galaxy cluster from a black hole, Nord points out, is the same technology that can be used to identify a face in a crowd. 

“If I’m using these tools to do science and I want to make them fundamentally better to do my science, it is highly likely I am going to make it better in other places it’s applied,” Nord says. “I’m essentially building technologies to surveil myself.”

Responsibilities and opportunities

Physics is behind one of the most famous scientific ethical quandaries: the creation of nuclear weapons. Since the time of the Manhattan Project—the government research program to produce the first atom bomb—scientists have debated the extent to which their involvement in the science behind these weapons equates to a responsibility for their use. 

In his 1995 Nobel Peace Prize acceptance lecture , physicist Joseph Rotblat, who walked away from the Manhattan Project, appealed directly to scientists’ ethical sensibilities. “At a time when science plays such a powerful role in the life of society, when the destiny of the whole of mankind may hinge on the results of scientific research, it is incumbent on all scientists to be fully conscious of that role, and conduct themselves accordingly,” Rotblat said. 

He noted that “doing fundamental work, pushing forward the frontiers of knowledge… often you do it without giving much thought to the impact of your work on society.” 

Thais says she sees the same pattern being repeated among physicists working on artificial intelligence today. There’s rarely a moment in the scientific process when a physicist can pause to consider their work in a larger context.

As physicists increasingly learn about machine learning alongside physics, they should also be exposed to ethical frameworks, Thais says. That can happen at conferences and workshops and in training materials online. 

This past summer, Kazuhiro Terao, a staff scientist at SLAC National Accelerator Laboratory, organized the 51st SLAC Summer Institute, which centered around the theme “Artificial Intelligence in Fundamental Physics.” He invited speakers on topics such as computer vision, anomaly detection and symmetries. He also asked Thais to address ethics. 

“It’s important for us to learn not just the hype about AI, but what kinds of things it can do, what kinds of things it can be biased about,” Terao says. 

Artificial-intelligence ethics research can teach physicists to think in ways that are also useful for physics, Terao says. For example, learning more about bias in machine-learning systems can encourage a healthy scientific skepticism about what such systems can actually do.

Ethics research also provides opportunities for physicists to improve the use of machine learning in society as a whole. Physicists can use their technical expertise to educate citizens and policymakers on the technology and its uses and implications, Nord says.

And physicists have a unique opportunity to improve the science of machine learning itself, Thais says. That’s because physics data, unlike facial-recognition data, is highly controlled—and there’s a lot of it. Physicists know what kinds of biases exist in their experiments, and they know how to quantify them. That makes physics as a field a perfect “sandbox” for learning to build models that avoid bias, Thais says. 

But that can only happen if physicists incorporate ethics into their thinking. “We need to be thinking about these questions,” Thais says. “We don’t get to escape the conversation.”

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Condensed Matter Seminar

Shouryya Ray, University of Southern Denmark Location: P8445.2

Gapless fermionic degrees of freedom abound in nature. On one hand, they can arise as quasiparticles in systems with Fermi points, such as semimetals. On the other hand, all elementary particles known so far are practically massless - at least when compared to the one "natural" mass scale, the Planck mass. The gaplessness of these excitations usually derives from some symmetry, emergent or fundamental. In this talk, I shall illustrate how studying the possible spontaneous breakdown of said symmetries can yield some theoretical insights into the host systems that would otherwise be hard, if not impossible, to come by.

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Jeong Min Park earns 2024 Schmidt Science Fellowship

The doctoral student will use the prize to find novel phases of matter and particles..

Physics graduate student Jeong Min (Jane) Park is among the 32 exceptional early-career scientists worldwide chosen to receive the prestigious 2024  Schmidt Science Fellows award.  

As a 2024 Schmidt Science Fellow, Park’s postdoctoral work will seek to directly detect phases that could host new particles by employing an instrument that can visualize subatomic-scale phenomena.  

With her advisor, Pablo Jarillo-Herrero , the Cecil and Ida Green Professor of Physics, Park’s research at MIT focuses on discovering novel quantum phases of matter.

“When there are many electrons in a material, their interactions can lead to collective behaviors that are not expected from individual particles, known as emergent phenomena,” explains Park. “One example is superconductivity, where interacting electrons combine together as a pair at low temperatures to conduct electricity without energy loss.”

During her PhD studies, she has investigated novel types of superconductivity by designing new materials with targeted interactions and topology. In particular, she used graphene, atomically thin two-dimensional layers of graphite, the same material as pencil lead, and turned it into a “magic” material. This so-called magic-angle twisted trilayer graphene provided an extraordinarily strong form of superconductivity that is robust under high magnetic fields . Later, she found a whole “magic family” of these materials, elucidating the key mechanisms behind superconductivity and interaction-driven phenomena. These results have provided a new platform to study emergent phenomena in two dimensions, which can lead to innovations in electronics and quantum technology.

Park says she is looking forward to her postdoctoral studies with Princeton University physics professor Ali Yazdani’s lab.

“I’m excited about the idea of discovering and studying new quantum phenomena that could further the understanding of fundamental physics,” says Park. “Having explored interaction-driven phenomena through the design of new materials, I’m now aiming to broaden my perspective and expertise to address a different kind of question, by combining my background in material design with the sophisticated local-scale measurements that I will adopt during my postdoc.”

She explains that elementary particles are classified as either bosons or fermions, with contrasting behaviors upon interchanging two identical particles, referred to as exchange statistics; bosons remain unchanged, while fermions acquire a minus sign in their quantum wavefunction.

Theories predict the existence of fundamentally different particles known as non-abelian anyons, whose wavefunctions braid upon particle exchange. Such a braiding process can be used to encode and store information, potentially opening the door to fault-tolerant quantum computing in the future.

Since 2018, this prestigious postdoctoral program has sought to break down silos among scientific fields to solve the world’s biggest challenges and support future leaders in STEM.

Schmidt Science Fellows, an initiative of Schmidt Sciences, delivered in partnership with the Rhodes Trust, identifies, develops, and amplifies the next generation of science leaders, by building a community of scientists and supporters of interdisciplinary science and leveraging this network to drive sector-wide change. The 2024 fellows consist of 17 nationalities across North America, Europe, and Asia.   

Nominated candidates undergo a rigorous selection process that includes a paper-based academic review with panels of experts in their home disciplines and final interviews with panels, including senior representatives from across many scientific disciplines and different business sectors.  

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