Participant Directory

Amogh  Anakru
Penn State University
Strongly Correlated Electrons

Sajant  Anand
University of California, Berkeley
Tensor networks, quantum error correction, hydrodynamics

Jeffrey  Backus
Princeton University
Amplitudes, particle phenomenology

Saba  Baig
University of Texas at Austin
AdS/CFT, Quantum Gravity, Fractons

Yimu  Bao
Kavli Institute for Theoretical Physics
Topological phases, non-equilibrium quantum dynamics, quantum error correction

Ahmed  Barbar
University of Kentucky
Quantum gravity, topological quantum field theory, topological phases of matter, quantum information.

Nora  Bauer
University of Tennessee, Knoxville
Quantum simulation, quantum optimization

Sayak  Bhattacharjee
Stanford University
Strongly correlated quantum matter, quantum dynamics, quantum information

Asad  Bhuiyan
Cornell University
many-body quantum dynamics, condensed matter field theory

Anna  Biggs
Princeton University
simple models of quantum black holes

Kangle  Cai
Yale University
Defect operators

Rolando R.  Camasca
University of California, San Diego
Interested in strongly correlated materials and quantum phases of matter

Shuyang  Cao
University of Pittsburgh
Nonequilibrium dynamics

Arkya  Chatterjee
Massachusetts Institute of Technology
Condensed matter theory, generalized symmetries

Hao  Chen
Princeton University
Quantum dynamics, open quantum systems

Zihan  Cheng
University of Texas at Austin
Nonequilibrium quantum systems; Quantum information theory

Maine  Christos
Harvard University
Spin liquids, moire materials, gapless quantum matter

Ceren B.  Dag
Harvard University
quantum many-body physics in and out-of equilibrium

Yi-Hsien  Du
University of Chicago
Condensed Matter Theory

Eren  Firat
EPFL
QFT, Particle Physics, Hydrodynamics, Large quantum numbers

Michele  Fossati
SISSA, Trieste, Italy
Entanglement in manybody systems, CFT, generalized symmetries

Shankar  Ganesh
University of Alberta
Condensed Matter Theory

Julian  Gass
University of Chicago
Entanglement in topologically ordered systems

Lei  Gioia
California Institute of Technology
Quantum phases of matter, topological physics, chiral phases, many-body ground state properties

Aleksander  Glodkowski
Wroclaw University of Science and Technology
Effective field theories, hydrodynamics, fractons, vortex crystals

Haoyu  Guo
Cornell University
Non-Fermi Liquid

Hyunsoo  Ha
Princeton University

 

Jake  Hauser
University of California, Santa Barbara
Quantum dynamics

Naichao  Hu
Ghent University
Condensed matter theory

Xiaoyang  Huang
University of Colorado, Boulder
Effective field theory, Holographic quantum matter, Fermi liquid

Murtaza  Jafry
University of Chicago
AdS/CFT, Non-Fermi Liquids, Fractional Quantum Hall Physics

Andrei  Katsevich
Princeton University
Quantum Field Theory

Alexey  Khudorozhkov
Boston University
Quantum dynamics, non-ergodic dynamics, constrained systems, Hilbert space fragmentation, topological order, fractons, quantum information, quantum error correction, tensor networks, numerical methods

Jaewon  Kim
UC Berkeley
Theoretical Condensed Matter Physics

Luke  Kim
Massachusetts Institute of Technology
Quantum Hall Effect, Topological Order

Kai  Klocke
University of California, Berkeley
Spin liquids, entanglement dynamics, fractional quantum Hall effect

Ryohei  Kobayashi
University of Maryland
Condensed matter theory, quantum field theory

Ilia  Kochergin
Princeton University

 

Abijith  Krishnan
Massachusetts Institute of Technology
condensed matter theory, boundary criticality, Kondo physics

Ho Tat  Lam
Massachusetts Institute of Technology
Quantum Field Theory

Jungwoo  Lee
Princeton University
Condensed Matter Physics

Cathy  Li
Virginia Tech
Quantum information; hydrodynamics

Lauren  Li
Princeton University
Condensed Matter Theory

Yue-Zhou  Li
Princeton University
Conformal field theory, amplitude and S-matrix; recently, I would like to learn more about quantum Hall effects

Ming-Rui  Li
Tsinghua University
condensed matter physics, non-equilibrium systems, quantum circuit

Xiang  Li
University of California, San Diego
Quantum phases of matter

Yabo  Li
Stony Brook University
Quantum information and condensed matter theory

Chuqiao  Lin
University of Oxford
Condensed matter theory, quantum information theory.

David (Ting-Chun) Lin
University of California, San Diego
Quantum information, Condensed matter, High energy

Nadie  LiTenn
Brandeis University
Quantum chaos, quantum gravity and information

Bowei  Liu
Princeton University
Condensed Matter Theory

Yuhan  Liu
Max Planck Institute of Quantum Optics
Entanglement characterization of quantum phases of matter, tensor network method

Shang  Liu
Kavli Institute for Theoretical Physics, UCSB
Condensed Matter Theory

Yifan  Liu
The Institute for Solid State Physics
(Boundary) conformal field theory, Generalized symmetry

Dachuan  Lu
University of California, San Diego
Noninvertible symmetry, quantum phase transition, quantum field theory

Tsung-Cheng Peter Lu
Perimeter Institute for Theoretical Physics
Topological phases of matter; many-body quantum entanglement and dynamics

Zhu-Xi  Luo
Harvard University
Ultra quantum matter

Ruochen  Ma
University of Chicago
Condensed Matter Physics

Ananth  Malladi
University of California, Santa Barbara
Field theory, quantum information, generalized symmetries, quantum criticality.

Nandu  Manoj
California Institute of Technology
Quantum phases of matter, High field superconductivity

Dan  Mao
Cornell University
Condensed matter theory

Omer  Mert Aksoy
Massachusetts Institute of Technology
Condensed Matter Theory, Topological Phases, Anomalies, Generalized Symmetries

Ruchira  Mishra
University of Chicago
I am interested in applying field theory methods to study many-body systems

Pushkar  Mohile
Stony Brook University
Condensed Matter Physics

Gautam  Nambiar
University of Maryland, College Park
Quantum spin liquids, detecting topological phases of matter, renormalization group methods

Vlad  Narovlansky
Princeton University

 

Shang-Qiang  Ning
The Chinese University of Hong Kong
Strongly correlated system, topological phase of matter and generalized symmetry

Pavel  Nosov
Stanford University
Disordered quantum systems

Sal  Pace
Massachusetts Institute of Technology
non-perturbative aspects of quantum matter/QFT; generalized symmetries; topological phases

Aswin  Parayil Mana
Stony Brook University
Condensed Matter Physics, Quantum Information

Rushikesh A.  Patil
University of California, Santa Barbara
Theoretical Condensed Matter Physics

Abhinav  Prem
Institute for Advanced Study
Theoretical condensed matter

Saran  Prembabu
Harvard University
Topological Phases, Conformal Field Theory, Symmetries, Quantum Magnetism

Tomer  Ravid
Rutgers University
Non-Fermi liquids

Amir  Raz
University of Texas at Austin
Quantum Field theory, Fractons, SYK, Carrollian Field theories

Xing-Yu  Ren
The Chinese University of Hong Kong
topological phases of matter, conformal field theory, tensor networks

Rahul  Sahay
Harvard University
Quantum Phases of Matter, Quantum Dynamics, Quantum Simulation

Vivek  Saxena
Rutgers University
Quantum Field Theory, Physical Mathematics, String Theory

Sahand  Seifnashri
Institute for Advanced Study
Generalized symmetries in QFT and CMT

Vidushi  Sharma
Los Alamos National Laboratory
Condensed Matter Theory, Density Functional Theory, Electronic Structure, Topological Materials

Yarden  Sheffer
Weizmann Institute of Science
Topologically ordered phases, quantum information

Bowen  Shi
University of California, San Diego
quantum phases and phases transitions, topological order, quantum entanglement, entanglement Bootstrap, emergence of effective field theory, chirality of quantum states, chirality of quantum states in nature.

Wilbur  Shirley
Institute for Advanced Study

 

Madhav  Sinha
Rutgers University
Generalized symmetries, integrability, MPS

Raman  Sohal
Princeton University
I am broadly interested in topological phases of matter and characterizing many-body systems both in and out of equilibrium via entanglement.

Ophelia  Sommer
Harvard University
Condensed Matter Theory

Grace  Sommers
Princeton University
Quantum many-body physics and statistical mechanics, particularly applied to quantum circuits and quantum error correction

Zhenhao  Song
University of California, Santa Barbara
Quantum spin liquids, Quantum magnets, Hubbard model, non-equilibrium physics

Nikita  Sopenko
Institute for Advanced Study
mathematical physics, topological phases of matter

Ryan  Spieler
University of Texas at Austin
Symmetries in Quantum Field Theory, Topological and related phases of matter

Kaixiang  Su
University of California, Santa Barbara
condensed matter theory, quantum information

Varsha  Subramanyan
Los Alamos National Laboratory
Condensed Matter Theory, Topological phases, Quantum anomalies, Quantum transport

Zimo  Sun
Princeton University
hep-th, cond-mat.str-el, gr-qc

Yuting  Tan
University of Maryland
Theoretical Condensed Matter Physics

Erickson  Tjoa
Max Planck Institute of Quantum Optics
Quantum many-body physics, quantum information theory, quantum field theory (in curved spacetimes)

Dmitrii  Trunin
Princeton University 
Quantum chaos

Bram  Vancraeynest-De Cuiper
Ghent University
Tensor networks, topological order, category theory, generalized symmetries, dualities

Juven  Wang
Harvard University CMSA
Theoretical Physics, Condensed Matter, High Energy Physics, Mathematical Physics, Quantum Field Theory

Mianqi  Wang
University of Texas at Austin
Quantum Field Theory and Symmetry

Tianle  Wang
University of California, Berkeley
condensed matter theory

Zong  Wang
California Institute of Technology
Topological phases of matter, quantum metrology, quantum information broadly

Evan  Wickenden
University of Colorado, Boulder
Fractons, topological order

Xiao-Chuan  Wu
The University of Chicago
unconventional quantum phase transitions, non-fermi liquids

Yantao  Wu
University of California, Berkeley
tensor networks

Rongge  Xu
Westlake University
Category theory on topological order

Xinping  Yang
Yale University
Topological phases of matter

Hironobu  Yoshida
University of Tokyo
Open quantum many-body systems

Andrew C.  Yuan
Stanford University
Statistical Mechanics, Quantum Information, Mathematical Physics

Caterina  Zerba
Technical University of Munich
non-equilibrium quantum dynamics and unconventional phases in condensed matter; unconventional superconductivity and transport properties in transition metal dichalcogenides (TMDs); intersection of quantum information theory with condensed matter physics.

Carolyn  Zhang
University of Chicago
condensed matter theorist broadly interested in quantum phases of matter, in and out of equilibrium, and the transitions between them. 

Jian-Hao  Zhang
Penn State University/University of Colorado Boulder
Condensed Matter Physics

Junjia  Zhang
Princeton University

 

Wucheng  Zhang
Princeton University
Quantum Field Theory

Yunqin  Zheng
YITP, Stony Brook
quantum field theories

Siwei  Zhong
Stony Brook University
Quantum Field Theories

Boran  Zhou
Johns Hopkins University
moiré physics, non-equilibrium