Bulletin of the American Physical Society
APS March Meeting 2023
Volume 68, Number 3
Las Vegas, Nevada (March 5-10)
Virtual (March 20-22); Time Zone: Pacific Time
0B. GSNP Short Course on Adventures with Computational Modeling and Machine Learning: From Grains to Bits PART I–Deformable Particle Model and Applications to Soft and Biological Materials
Session 0A
0A. DPOLY Short Course: The Polymer Physics of Separation Membranes I
Session 1
1A. APS EDI Fellows Workshop: Building Skills for Critical Conversations in Physics Classrooms (INVITATION ONLY)
Session 10
10D. APS Innovation Programs
10E. Kavli Symposium: Frontier Physics from Atomic to Astronomical Scales
10EE. Cosmic Tumbles, Quantum Leaps: A Performance by Le PeTiT CiRqUe
10F. Connecting with Success: Networking Workshop for Physicists
10G. APS Prizes and Awards Ceremonial Session
10H. Welcome Reception
10I. Grad Fair Reception
10Ha. Where the Circus Meets Physics
10J. Special Session: Quantum Information Science and Engineering—The first four years of the National Quantum Initiative
Session 11
11F. Unit Leadership Breakfast (INVITATION ONLY)
Session 12
12F. Graduate School Fair & Undergrad Lounge
Session 13
13G. Students Lunch with the Experts
Session 14
14K. Building an Equitable Physics Community
14L. Meet the Physical Review Journal Editors Reception
14M. NMC Reception
14N. Student Reception
14O. Donor Reception (INVITATION ONLY)
14P. Physics of NASCAR
Session 15M
15M. Tutorial for Authors and Referees
Session 16
16Q. Careers in Physics Workshop: Putting Your Science to WORK!
16S. NSBP/NSHP Meetup
16V. Mental Health Roundtable
16T. Education and Diversity Reception
16U. Staged Reading of the play The Half-life of Marie Curie
Session 16R
16R. LGBTQ+ Roundtable
Session 17
17A. Industry Day Closing Reception
Session 2
2A. DPOLY Short Course: The Polymer Physics of Separation Membranes II
2B. Bridge Program Symposium (INVITATION ONLY)
2D. DMP Short Course on Techniques for Condensed Matter Physics
2E. DSOFT Short Course on Computing Soft Matter Across Scales
Session 2C
2C. GMAG Short Course for Early-Career Scientists
Session 3A
3A. DMP Short Course on Magnetic Topological Materials
Session 4
4B. GSNP Short Course on Adventures with Computational Modeling and Machine Learning: From Grains to Bits PART II–
Session 5
5C. APS March Meeting Wikipedia Edit-a-thon
Session 6
6E. First-Time Attendee Orientation
Session 7
7A. Undergraduate Student Get Together
7B. Chapters & Career Mentoring Fellows Reception (INVITATION ONLY)
Session 8
8A. Companions Breakfast
8B. Public Engagement Snack & Learn
Session 9
9B. Careers Panel Lunch
Session A
A01. Predicting Nonlinear and Complex Systems with Machine Learning
A02. Network Theory and Applications to Complex Systems
A03. Disorder and Fluctuations in Chemical Physics I
A04. Polymers and Block Copolymers at Interfaces I
A05. Charged and Ion-Containing Polymers I
A06. Non-Equilibrium Thermodynamics: From Natural Selection to Chemical Reaction Networks
A07. Non-reciprocity in Soft and Active Matter I
A08. Physics of Proteins I: Structure & Dynamics of Proteins
A09. Active Materials I
A10. Membranes I
A11. Physics of Neural Systems I
A12. Polymer Membranes for Separations
A13. Brain Organoids: From morphogenesis to metamaterials
A14. Colloidial Systems
A15. Advances in Polymer Physics
A16. From Grains to Complex Flows to Sustainable Materials: Soft Matter Meets Climate Change
A17. Density Functional Theory in Chemical Physics I
A18. Fluids I
A19. Integer Quantum Hall Effect
A20. Graphene Devices
A21. Flatbands without Moire
A22. Superconductivity:Mostly_CuO_1
A24. Novel Strongly Correlated d- and f-electron Systems: Experiment and Precision Many-body Theory
A27. Superconductivity: General I
A28. Fe-Based Superconductors: Surface State, Thin Film, Etc.
A29. UTe2 and Actinide Heavy Fermion Materials
A30. Heavy Fermions I
A32. Nonequilibrium Dynamics in the Solid State
A33. Expanding the Definition of Physics
A34. Optical Spectroscopic Measurements of 2D Materials I
A36. Future of Energy Decarbonization
A37. Superconductivity and fluctuations in overdoped cuprates
A38. Novel Synthesis Approaches for Complex Oxide Films and Heterostructures
A40. Defects for Quantum Computations
A41. Multiferroics and Magnetoelectric Couplings
A42. Dirac and Weyl Semimetal: Ultrafast, Electron-lattice Coupling and Photogalvanic Effect
A43. Magnetic Weyl Semimetals
A44. 2D Magnetics I
A45. Frontiers in Coherent Diffractive Imaging and Electron Microscopy
A46. Undergraduate Research I
A47. Undergraduate Research II
A50. Computational Discovery of High-Entropy Materials
A51. Physics Outside The Lab: Government, Policy and Diplomacy, Outreach, Journalism and Entrepreneurship
A52. Active Optical Devices
A53. AI and Materials I
A54. Skyrmions and Chiral Spin Textures in Thin Films and Multilayers
A55. Skyrmions and Chiral Spin Textures in Van der Waals and 2D Materials
A56. Spin transport and spin-orbitronics
A57. Disordered Magnetic Materials
A58. Quantum Measurements, Channels, and Resource Theories
A59. First-Principles Simulations of Excited-State Phenomena: GW Method and Beyond I
A60. Quantum Embedding: Materials and Methods for Materials
A61. Understanding Amorphous Matter Through Modeling and Simulation
A64. Algorithms for Hamiltionian Simulations
A66. Disorder and Localization in AMO Systems
A67. Continuous-Variable Quantum Information: Bosonic Codes and Error Correction
A68. Artificial Spin Ice – The Next Generation
A69. Hybrid Quantum Light-Matter Systems
A70. Machine Learning and Quantum Simulation
A71. Quantum Sensing using Distributed Sensors
A72. Quantum Application Benchmarking
A73. Remote and multi-qubit entanglement in superconducting systems
A74. Spin Qubit Arrays I
A75. Superconducting qubit circuit theory
AA01. V: Dopants and Defects in Semiconductors
AA02. V: Topological Band Structures: Chern Insulators, Topological Insulators and the Quantum Hall Effect
AA03. V: Quantum Spin Liquids and Chiral Spin Textures and Dynamics
AA04. V: Fluids I
AA05. V: Undergrad Research I
AA06. V: Undergrad Research II
AA08. V: Quantum Error Correction and Entanglement
AA09. V: Molecular Biophysics
AA10. Connecting Africa, USA, and the World [CAUW]
AAA01. V: Physics Education and Outreach
AAA02. V: Spin-Dependent Phenomena in Semiconductors, Including 2D Materials and Topological Systems
AAA03. V: Self-Assembly and Composite Materials
AAA04. V: Spectroscopy and Experiment in Chemical Physics
AAA05. V: Quantum Machine Learning
AAA06. V: Topological Qubits and Quantum Thermodynamics
AAA07. V: Superconductivity IV
AAA08. V: Matter under Extreme Conditions
AAA09. V: Topological Phenomena II
AAA10. V: Growth and Characterization
Session AA
AA07. V: Precision Many Body Physics
Session B
B01. Active Matter
B02. Jamming and Glassy Behavior
B03. Spectroscopy in Space and Time I; Frequency Comb Spectroscopy
B04. Transport Phenomena in Membranes for Separations I
B05. Nonequilibrium Structures and Dynamics of Polymeric Materials I
B06. Mechanics of Cells and Tissues I
B07. Tribocharging and the Role of Water
B08. Animal Behavior
B09. Active Materials II
B10. Quantitative Cell Physiology I - Shape and Size
B11. Physics of the Cytoskeleton I
B12. Statistical Physics Meets Machine Learning
B13. Cells as active matter modifying their environment: from colloids to cancer
B14. Morphing Matter: From Soft Robotics to 4D Printing I
B15. Polyelectrolyte Complexation
B16. Theory and Numeric Simulations of Glasses
B17. Density Functional Theory in Chemical Physics II
B18. Fluids II
B20. Bilayer & Trilayer Graphene Electronic Phenomena
B21. Moire Beyond Magic-Angle I
B22. Superconductivity: Theory-I
B23. Disorder and Topological Defects in Topological Phases
B24. Do strange metals exhibit Plankian dissipation?
B25. Ultrafast Dynamics in Cooperative Systems
B27. Superconductivity:Low_Temp_1
B28. Fe-Based Superconductors: Te-doped and S-doped FeSe
B29. Organic Conductors and CDW Materials
B30. Metal-Insulator Transitions: Experiment
B32. Adsorption and Physisorption
B33. Quantum Quenches and Integrability
B34. Optical Spectroscopic Measurements of 2D Materials II
B36. Novel Emergent Magnetism in Moiré Superlattices
B37. New frontiers at the Intersection of strong correlations and topology
B38. Ferroelectric Oxide Heterostructures and Freestanding Membranes
B39. 2D Materials: Formation Pathways and Mechanisms, Heterostructures and Defects I
B40. 2D Magnetics II
B41. Defects in Gallium Oxide
B42. Topological Bands and Nonlinearity
B43. Dirac and Weyl Semimetal: Magnetism and Optics
B44. Topological Magnons
B45. Energy - Thermoelectrics
B47. Quantum Algorithms and Complexity
B50. Russia's Attack on Ukraine: Effects on the Threat of Nuclear War and the Future of Arms Control
B51. The Early Career Scientist Experience in Times of Crises and Struggle
B52. Electronic Structure: Theory and Spectra
B53. Autonomous Control
B54. Triangular Lattices
B55. Spin Dynamics and Torques
B56. Magnetic Domain and Artifically Structured Magnetic Materials
B57. Magnonics I
B58. Single Molecule Magnets I
B59. First-Principles Simulations of Excited-State Phenomena: Excitons and Bethe-Salpeter Equation I
B60. First-Principles Simulations of Excited-State Phenomena: X-Ray Spectra
B61. Electrons, Phonons, Electron-Phonon Scattering and Phononics I
B62. Quantum Many Body Systems & Methods I
B64. Quantum Algorithms for Optimization
B65. Extreme Events, Tipping Points, and Abrupt Changes in the Climate System
B66. DAMOP: Hybrid Quantum Systems I
B67. Trapped-ion quantum computing
B69. Next Challenges in Quantum Simulation
B70. Classical-Assisted Quantum Computation
B71. Quantum Sensing using Nitrogen Vacancy Centers
B72. Holistic Benchmarking and Calibration of Quantum Systems
B73. Superconducting Qubits: Design and device tools
B74. Spin Qubit Arrays II
B75. Quantum Simulation with Superconducting Qubits
Session C
CCC01. V: Soft Matter Physics
CC01. Plenary Session: Research Security Panel
CCC02. V: Quantum Metrology and Sensing
CCC03. V: General Physics III
CCC04. V: Non-Ergodic Quantum Dynamics
CCC05. Fe-Based Superconductor and Strong Correlated System
CCC06. V: General Physics IV
CCC07. V: General Physics V
CCC08. V: General Physics VI
CCC09. V: General Physics VII
Session D
D01. GSNP Student and Postdoc Speaker Awards
D02. Statistical Physics Meets Machine Learning I
D03. Spectroscopy in Space and Time II; Modern Microwave Spectroscopy & Astrochemistry Investigations
D04. Transport Phenomena in Membranes for Separations II
D05. Charged and Ion-Containing Polymers II
D06. Mechanics of Cells and Tissues II
D07. Learning in Physical Systems without Neurons
D08. Molecular Machines I
D09. Mechanical Metamaterials
D10. Membranes II
D11. Physics of Neural Systems II
D12. Out-of-Equilibrium: Structure and Dynamics of Polymers
D13. Liquid Crystal Defect Cores: Order Parameters, Regularization, and Stabilization
D14. Morphing Matter: From Soft Robotics to 4D Printing II
D15. Polymer Gels
D16. Electrostatic Generation of Sprays and Filaments
D17. Disorder and Fluctuations in Chemical Physics II
D18. Fluids III
D19. Experimental Progress in Nonmagnetic Solid-State Topological Insulators
D20. Non-Carbon 2D materials I
D21. Moire Beyond Magic-Angle II
D22. Superconductivity: Competing Phases-I
D23. Advances in Probing and Designing Topological Materials: Theory and Experiment
D24. Floquet engineering of 2D materials
D25. Ultrafast Dynamics and Control of Quantum Materials
D27. Superconductivity:Low Dimensional-I
D28. Fe-Based Superconductors: Topological Superconductivity and Competing Phases
D29. Strongly Correlated Systems, Including Quantum Fluids and Solids I
D30. Strongly Correlated Systems, Including Quantum Fluids and Solids II
D32. Catalytic Materials and Processes
D33. Monitored Quantum Dynamics and Random Circuits
D34. Optical Spectroscopic Measurements of 2D Materials III
D36. DMP Award Symposium
D37. Discovery of unexpected magnetism and superconductivity in natural bilayer graphene
D38. Superconductivity in Novel Oxides
D39. 2D Materials: Formation Pathways and Mechanisms, Heterostructures and Defects II
D40. 2D Materials: Ferroic Behavior
D41. Defects in Oxides
D42. Two-dimensional Magnetic Topological Materials
D43. Topological Superconductivity in Engineered Heterostructures
D44. Computational Design, Understanding and Discovery of Novel Materials I
D45. Energy - Photovoltaics and Photonics
D46. Undergraduate Research III
D47. Undergraduate Research IV
D50. Electron-phonon coupling effects on optical spectra: theory and applications
D51. Research Mentoring in Undergraduate and Graduate Programs
D52. Electronic Structure: Thermodynamic and Optical Properties
D53. Machine Learning for Spectroscopy
D54. Quantum Spin Liquids: Theory and Computation
D55. Low Dimensional Magnetism (Including Molecules and Surfaces)
D56. Spin Dependent Transport I
D57. Spin Dependent Transport II
D58. Tensor Networks and Hybrid Quantum Algorithms
D59. First-Principles Simulations of Excited-State Phenomena: Electron-Phonon Interactions I
D60. Emerging Trends in Molecular Dynamics Simulations and Machine Learning I
D61. Electrons, Phonons, Electron-Phonon Scattering and Phononics II
D62. Machine Learning for Quantum Matter I
D64. Quantum Simulation I: Speedups, Improvements, and Beyond
D65. Statistical and Nonlinear Physics of Earth and its Climate
D66. Topological States in AMO Systems I
D67. Modular Quantum Systems and Networks
D68. Emergent phenomena in oxide interface due to broken symmetry and interface interactions
D69. Molecular Quantum Matter
D70. Quantum Sensing using Diamonds
D71. Quantum Sensing in Cryogenic Environments
D72. Techniques for Learning Noise in Quantum Systems
D73. Quantum Machine Learning I
D74. Quantum Computing with Donor Spins I
D75. Superconducting Qubit Optimal Control I
DD01. V: Poster Session I (8:30am-9:30 am, PST)
Session E
E65. GPC Business Meeting
E45. GERA Business Meeting
EE01. V: The Integer and Fractional Quantum Hall Effects
EE02. V: Machine Learning in Physics
EE03. V: Semiconductor Qubits
EE04. V: Variational Quantum Algorithms and Adiabatic Quantum Computing
EE05. V: Cellular Biophysics
EE06. V: Strongly Correlated Systems, Including Quantum Fluids and Solids I
EE07. V: Complex Structured Materials, Including Graphene I
EE08. V: Nanophysics
EE09. ICTP-SAIFR Satellite Meeting: Condensed Matter Theory in São Paulo
Session EE
EE10. V: 2D- Ferroelectric, Magnetic and Optical Properties
Session F
F01. Statistical Physics of Social Systems
F02. Statistical Physics Meets Machine Learning II
F03. Electronic Structure in Open Science I
F04. Beyond Linear: Structure, Dynamics, Response and Unique Properties of Topological Polymers I
F05. Polymers and Block Copolymers at Interfaces II
F06. DNA Mechanics and Gene Expression I
F07. Non-reciprocity in Soft and Active Matter II
F08. Physics of Proteins II: Structure & Dynamics of Proteins
F09. Elasto-X, Combining Elasticity with Capillarity, Granularity, Adhesion, and Others
F10. Ecological Dynamics I
F11. Mechanobiology of Cell-Matrix Interactions
F12. Polymer Physics Prize
F13. Emerging Principles and New Developments in Non-Equilibrium Thermodynamics, Natural Selection and Chemical Reaction Networks
F14. Biological Fluid Mechanics of Transport, Growth and Actuation
F15. Rheology and Mechanics of Polymers
F16. DSOFT Early Career and Student Awards Session
F17. Spectroscopy in Space and Time III; Super-resolution and Advanced Imaging
F18. Fluids IV
F19. Non-Carbon 2D materials II
F20. Matter at Extreme Conditions: Static EOS and Materials Experiments
F21. Magic Angle Twisted Graphene I & Goeppert Mayer Award Talk
F22. Superconductivity:Mostly_CuO_2
F24. Probing Magnetic and Charge Degrees of Freedom in Spin-Triplet Superconductor UTe2
F25. Superconductivity:JJ-I
F27. Superconductivity:Mostly_Kagome
F28. Fe-Based Superconductors: Multiple Magnetic Orders and New Frontiers
F29. Strongly Correlated Systems, Including Quantum Fluids and Solids III
F30. Strongly Correlated Systems, Including Quantum Fluids and Solids IV
F32. Topological Surfaces and Interfaces towards Applications
F33. Transport and Dynamics in Quantum Devices
F34. Mechanical and Dynamical Properties
F36. DMP Past Chair Symposium on Visualizing Epitaxy
F37. Ferroelectricity and Superconductivity as Competing Orders in Strontium Titanate
F38. Light Induced Structural Control of Electronic Phases I
F39. 5d/4d Transition Metal Systems I
F40. Low Dimensional Materials
F41. Ferroelectrics, Antiferroelectrics, and Polar Metals
F42. Defects in Solar Cell Materials
F43. Dirac and Weyl Semimetal: 3D to 2D and New Frontiers
F44. Topological Kagome Magnets
F45. Energy - Lithium Battery Cathodes and Anodes
F46. Undergraduate Research V
F47. Undergraduate Research VI
F50. Physics of Perovskite Halides (invited session)
F51. Computing in Physics Education
F52. Ballistic Transport in Semiconductor Devices
F53. AI and Materials II
F54. Emergent Properties of Complex Oxides Bulk, Thin Films, and Heterostructures I
F55. 2D Magnetism
F56. Quantum Spin Liquid Materials I: Geometric Frustration
F57. Quantum Phenomena and Sensing in Ordered Magnets
F58. Pyrochlore Lattices
F59. First-Principles Simulations of Excited-State Phenomena: GW Method and Beyond II
F60. Extreme Scale Computational Science Discovery in Fluid Dynamics and Related Disciplines I
F61. Electrons, Phonons, Electron-Phonon Scattering and Phononics III
F62. Machine Learning for Quantum Matter II
F64. Quantum Simulation II: Estimating Ground States
F65. Quantum Field Theories and Foundations
F66. Non-Equilibrium Physics in AMO Systems I
F67. Transduction for Quantum Networks
F69. Building the Quantum Computing Software Stack
F70. Quantum Circuit Expression and Simulation
F71. Hardware and Machine Learning for Fast Control
F72. Benchmarking Gates and Quantum Processes
F73. Error Mitigation Theory and Extensions
F74. Quantum Computing with Donor Spins II
F75. New Fluxonium Architectures
Session G
G00. Poster Session I (2pm-5pm PST)
G01. Non-Equilibrium and Transient Mechanics of Granular and Soft Materials I
G02. Statistical Mechanics of the Brain
G03. Electronic Structure in Open Science II
G04. Beyond Linear: Structure, Dynamics, Response and Unique Properties of Topological Polymers II
G05. Padden Award Symposium
G06. Biomaterials and Nanotechnology
G07. Enzyme Driven Active Matter from Nano to Microscale
G08. Ecological Dynamics II
G09. Friction, Fracture, and Adhesion in Soft Materials I
G10. Quantitative Cell Physiology II - Metabolism and Growth
G11. Multi-Scale Modelling of Biological Cells: from Atoms to Whole Cells
G12. Structural Relaxations in Permanent and Dynamic Covalent Polymer Networks and Gels
G13. Aerogels, Foams and Sponges: Recent Advances and Challenges
G14. Bio-inspired Phase Separation I
G15. Physics in Polymer Recycling and Upcycling I
G16. Extreme Mechanics
G17. Density Functional Theory in Chemical Physics III
G18. Fluids V
G19. Chern Insulators, Symmetry Protected Topology, and Entanglement
G20. Matter at Extreme Conditions: Dynamic Experiments
G21. Magic Angle Twisted Graphene II
G22. Superconductivity: Theory-II
G23. Nonequilibrium Structures and Dynamics of Polymeric Materials II
G24. Experimental and theoretical advances on strange metals
G25. Superconductivity:Low Dimensional-II
G27. Superconductivity:Low_Temp_2
G28. Computational Design, Understanding and Discovery of Novel Materials II
G29. Strongly Correlated Systems, Including Quantum Fluids and Solids V
G30. Strongly Correlated Systems, Including Quantum Fluids and Solids VI
G32. Functional Oxides: Surfaces, Modification and Growth
G33. Floquet Systems
G34. Prize for a Faculty Member for Research in an Undergraduate Institution - Undergraduate Diversity and Education
G36. Physical Review Invited Session: Forefront Research Across Disciplines
G37. Emergent Phenomena in Correlated and Topological Square nets
G39. 5d/4d Transition Metal Systems II
G40. Active Metamaterials
G41. Defects in Nitrides
G42. Topological Superconductivity in Nanowires and One-dimensional Systems
G43. Synthesis and Properties of Magnetic Topological Materials
G44. 2D Materials: Advanced Characterization I
G45. Energy - Battery Electrolytes
G50. Quantum Simulations of Coherent States of Matter
G51. Autonomous Science
G52. Ultrafast Spectroscopy and Optical Techniques
G53. TMDCs: Excitons, magnetism and spin dependent effects
G54. Emergent Properties of Complex Oxides Bulk, Thin Films, and Heterostructures II
G55. 1D Magnetism
G56. Quantum Spin Liquids, Theory I
G57. Spin and Orbital Currents
G58. Single Molecule Magnets II
G59. First-Principles Simulations of Excited-State Phenomena: Excitons and Bethe-Salpeter Equation II
G60. Emerging Trends in Molecular Dynamics Simulations and Machine Learning II
G61. Electrons, Phonons, Electron-Phonon Scattering and Phononics IV
G62. Computational Methods for Statistical Mechanics: Advances and Applications I
G64. Bosonic Quantum Error Correction Codes
G65. Topological Qubits
G66. Open Quantum Systems I
G67. Neutral atom qubits and applications
G68. Ultrafast Magnetization Dynamics
G69. Tweezer Arrays
G70. Quantum Circuit Optimization and Transpilation
G71. Quantum Sensing using Electronic States
G73. Scaling Error Mitigation
G74. Novel Spin Qubit Materials and Technologies I
G75. Protecting superconducting qubits from noise
GG01. V: Nanostructures and Metamaterials
GG02. V: Topological Semimetals and Insulators, Interactions and Beyond
GG03. V: Cooperative Phenomena, Magnetic Domains, and Domain Walls
GG04. V: Collective Dynamics and Network Theory in Complex Systems
GG05. V: Electrons, Phonons, Electron-Phonon Scattering and Phononics I
GG06. V: Machine Learning for Quantum Matter
GG08. V: Continous Variable QC and Quantum Networks
GG09. V: Multicellular Phenomena I
GG10. V: 2D-Electronic Properties
Session GG
GG07. V: Theory and Computation in Chemical Physics
Session H
H01. Exhibitor Workshop conducted by Agnostiq
H02. Exhibitor Workshop conducted by QuantWare
H03. Exhibitor Workshop conducted by Research in German
H04. Exhibitor Workshop conducted by Getson Immigration
H05. Exhibitor Workshop conducted by Qblox
Session J
J01. Quantum Casino
J02. DSOFT Early Career Meet-and-Greet
JJ01. V: Multiferroics and Ferroelectrics I
JJ02. V: Doped FeSe Superconductors and Nickelate
JJ03. V: Emergent Properties of Complex Oxides Bulk, Thin Films, and Heterostructures V
JJ04. V: Superconducting Quantum Information: Gates and Bosonic Qubits
JJ05. V: Tissues and Disease
JJ06. V: Strongly Correlated Systems, Including Quantum Fluids and Solids II
JJ07. V: Complex Structured Materials, Including Graphene II
JJ09. Quantum Information Science and Technologies in South America
JJ10. V: Computational
Session JJ
JJ08. V: Superlattices and Other Artificially Structured Materials
Session K
K01. Information Theory and Physics
K02. Binding and Assembly of Proteins on Membranes
K04. Physical Phenomena at Polymer/2D Material Interfaces
K05. Dillon Medal Symposium
K06. DCP Award Session
K07. DNA-based Soft Matter: Design, Dynamics, and Active Mechanics I
K08. Ecological Dynamics III
K09. Friction, Fracture, and Adhesion in Soft Materials II
K10. Mechanics of Cells and Tissues III
K11. Physics of the Cytoskeleton II
K12. Living Histories of Ideas
K13. Materials That Do Things by Themselves
K14. Bio-inspired Phase Separation II
K15. Physics in Polymer Recycling and Upcycling II
K16. Engineered Soft Materials: New Approaches, Mechanisms and Structures I
K17. Density Functional Theory in Chemical Physics IV
K18. Fluids VI
K19. Developments in Higher-Order Topological Insulators
K20. Matter at Extreme Conditions: Static Superconductivity Experiments
K21. Moire Beyond Graphene I
K22. Superconductivity: Competing Phases-II
K23. Polymer Glasses and Glass Formation
K24. Dynamical Entanglement Transitions in Monitored Random Quantum Circuits
K25. Topological Superconductivities
K27. Superconductivity:Vortex & Magnetism
K28. Computational Design, Understanding and Discovery of Novel Materials III
K29. Strongly Correlated Systems, Including Quantum Fluids and Solids VII
K30. Strongly Correlated Systems, Including Quantum Fluids and Solids VIII
K32. Frontiers in Growth
K33. Many-Body Localization
K34. Quantum Computing, Education, and Information
K36. Keithley Award Symposium
K37. The interplay between correlation and topology in TBG moire systems
K38. Light Induced Structural Control of Electronic Phases II
K39. 5d/4d Transition Metal Systems III
K40. Meta Structures and Properties
K41. Ferroics in Two Dimensional Materials, Films, and Heterostructures
K42. Topological Superconductivity in Van Der Waals Materials
K43. Transport and Edge States in Magnetic Topological Insulators
K44. 2D Materials: Superconductors
K45. Energy - Storage and Conversion at Interfaces
K50. The Great Squeeze: The True Cost of Graduate School
K51. Scientist Entrepreneurs: Making a career founding start-up companies
K52. IUPAP@100: International Science in Changing Societal and Geopolitical Landscapes
K53. Designing Neural Networks for the Structure of Physics Data
K54. Stabilization of Topological Spin Textures
K55. Nanomagnetic Core Shell Structures and Antiferromagnetic Systems
K56. Kagome Materials
K59. First-Principles Simulations of Excited-State Phenomena: Electron-phonon Interactions II
K60. Extreme Scale Computational Science Discovery in Fluid Dynamics and Related Disciplines II
K61. Electrons, Phonons, Electron-Phonon Scattering and Phononics V
K62. Emerging Trends in Molecular Dynamics Simulations and Machine Learning III
K64. Variational Quantum Algorithms
K65. Optical Physics
K66. General AMO Physics
K67. Quantum networks modular architecture and distribution
K68. Physics of Immune Systems
K69. Landauer-Bennett Award Prize Symposium
K70. Support and applications for quantum control
K71. Quantum LDPC Codes and Decoders
K72. Entanglement and Entropy for Multiparty Quantum Systems
K73. Quantum Neural Networks
K74. Semiconductor Qubits: Novel Spin Qubit Materials and Technologies II
K75. Superconducting Qubits: Cat Qubits and Strong Coupling
Session L
L02. GSNP Business Meeting
L05. DPOLY Business Meeting
L07. DBIO Business Meeting
L37. DCMP/DMP Joint Business Meeting
L36. GIMS Business Meeting
L54. GMAG Business Meeting
L60. DCOMP Business Meeting
L69. DQI Business Meeting
L70. FECS Reception
L72. DCP Business Meeting
L08. NIGMS Funding Opportunities Town Hall
LL01. V: Light Induced Structural Control of Electronic Phases
LL02. Open SESAME: Waves of Success and Recognition Connecting Women Scientists Beyond Skepticism-Beyond Borders
LL03. V: Novel Instrumentation Concepts
LL04. V: Magnetic Nanostructures
LL05. V: Thermodynamics in Quantum Information and Phase Transitions
LL06. V: Electrons, Phonons, Electron-Phonon Scattering and Phononics II
LL07. V: Quantum Characterization, Verification, and Validation
LL09. V: Neuroscience and Behavior
Session LL
LL08. V: Quantum Simulation
LL10. V: Data Science I
Session M
M01. Neurodynamical Models of Cognition
M02. From Statistical Physics to High Performance Materials I
M03. Programmed Responsive Polymers and Soft Matter I
M04. Polymers and Block Copolymers at Interfaces III
M05. Nonequilibrium Structures and Dynamics of Polymeric Materials III
M06. Biomolecular Condesates I - Complex Assemblies
M07. Functionality through Nonlinearity in Metamaterials
M08. DNA Mechanics and Gene Expression II
M09. Emerging Trends in Soft Microscale Mechanics I
M10. Pattern Formation in Biological Systems
M11. Biological Active Matter III
M12. Variability in Biological and Living Systems
M13. New Developments in Elastic Turbulence and Flow Instabilities
M14. Hierarchical Models for Omics Data
M15. Structural Relaxation in Permanent Crosslinked Polymer Networks
M16. Infomatter: Discovery and Design of Memory Formation and Information in Matter
M18. Fluids VII
M19. Majorana Zero Modes in Topological Superconductors
M20. Matter at Extreme Conditions: EOS and Phase Transitions
M21. Photocurrents in 2D Materials
M22. Superconductivity:Mostly_CuO_3
M24. Emergent Phenomena in Strongly Correlated Quantum Materials
M25. Dirac and Weyl Semimetals: Theory 1
M27. Superconductivity:JJ-II
M28. Computational Design, Understanding and Discovery of Novel Materials IV
M29. Strongly Correlated Systems, Including Quantum Fluids and Solids IX
M30. Strongly Correlated Systems, Including Quantum Fluids and Solids X
M32. Metal Films and Interfaces
M33. Microscopic Self-Assembly I
M34. Photodetectors and Optical Emitters
M36. Machine Learning in Scanning Probe Microscopy
M37. Recent Developments in the Theory of Superconductivity
M38. Tools and Techniques for Exploring Materials Physics at the Frontier of Time and Length Scales
M39. Solid-state Quantum Defects
M41. Theoretical and Computational Modeling of Ferroelectrics and Multiferroics
M42. 2D Materials: Advanced Characterization II
M43. Dirac and Weyl Semimetal: Material Discovery and Development
M44. Topological Magnetic Textures
M45. Energy - Catalysis
M50. JCP-DCP Editors Choice
M51. What Do Early Career Physicists Do?
M52. Physics of disease states and normal physiology
M53. Computer Vision
M54. Emergent Properties of Complex Oxides Bulk, Thin Films, and Heterostructures III
M55. Dynamics of Topological Spin Textures
M56. Quantum Spin Liquid Materials II: Geometric Frustration, Shastry-Sutherland, and Valence Bond Solids
M57. Nanomagnetic Systems: Artificial Spin Ice and Exchange Bias
M58. GMAG: Light Matter Interaction
M59. Matter under Extreme Conditions I
M60. First-Principles Simulations of Excited-State Phenomena: Out-of-Equilibrium Dynamics
M61. Precision Many Body Physics I: Ultra-quantum Matter
M62. Machine Learning for Quantum Matter III
M64. Algorithms for Quantum Machine Learning and Its Applications
M65. Quantum Information in AMO Physics I
M66. Topological States in AMO Systems II
M67. Hybrid Quantum Systems I
M68. Quantum Computing Hardware
M69. Family Planning and Caregiving Impacts on the Physics Community
M70. Photonic systems for quantum networks
M71. Superconducting Qubit Optimal Control II
M72. Kinetic Inductance Parametric Amplifiers and Quantum-Limited Detectors
M73. Superconducting Qubits: Qubit materials
M74. Spin Qubit Measurement I
M75. Novel Superconducting qubit designs and components I
Session N
N00. Poster Session II (11am-2pm PST)
N01. Variability in Biological and Living Systems I
N02. From Statistical Physics to High Performance Materials II
N03. Electronic Structure in Open Science III
N04. Chemical Physics at the Middle Scales of Soft Matter I
N06. Cytoskeletal and Cytoplasmic Dynamics and Transport
N07. Buckling Instabilities of Thin Materials I
N08. Synthetic Biology
N09. Emerging Trends in Soft Microscale Mechanics II
N10. Cell Fate Transitions
N11. Biological Active Matter IV
N12. Gallery of Soft Matter
N13. New physics-based perspectives on building and understanding biological cells
N14. Intrinsically Disordered Proteins and Non-equilibrium Processes
N15. Art meets Science (CIP & FOEP)
N16. Disordered and Glassy Systems (Non-polymeric)
N17. Density Functional Theory in Chemical Physics V
N18. Fluids VIII
N19. Theoretical Developments in Topological States: Multipole Moments, Flat Bands, Local Markers, and Beyond
N20. Matter at Extreme Conditions: Simulation and Novel Methods
N21. Valley & Spin Polarization in 2D
N22. Superconductivity:Majoranas
N23. Electronic structure of topological materials (photoemission, etc.)-I
N24. Charge density Wave in Kagome Metal
N25. Dirac and Weyl Semimetals: Theory 2
N27. Superconductivity:Low_Temp_3
N28. Computational Design, Understanding and Discovery of Novel Materials V
N29. Strongly Correlated Systems, Including Quantum Fluids and Solids XI
N30. Strongly Correlated Systems, Including Quantum Fluids and Solids XII
N32. Novel Semiconductors Thin Film Growth and Characterization
N33. Microscopic Self-Assembly II
N34. Physics and Applications in Electronic Devices
N36. Large-scale Scientific Facilities and Diplomacy
N37. Unconventional fractional quantum Hall States
N38. Light Induced Structural Control of Electronic Phases III
N39. Nanophotonics
N40. 2D Moiré Materials: Electronic and Correlated Phenomena
N41. Spin Electric, Domain Physics in Ferroelectric and Multiferroics
N42. 2D Materials: Advanced Characterization III
N43. Magnetic Topological Semimetals
N44. Topological Superconductivity: Proximity and Interface Effects and Low-dimensional Systems
N45. Energy - General
N50. Spin-wave transport, damping and interfacial effects for tailoring magnetization dynamics
N51. Commercial Applications of Quantum Computing
N52. Biomagnetic Imaging and Sensing
N53. AI and Materials III
N54. Emergent Properties of Complex Oxides Bulk, Thin Films, and Heterostructures IV
N55. 2D Materials: Magnetism
N56. Quantum Spin Liquid Materials III: Kitaev Materials
N57. Magnetization and Spin Dynamics I
N59. Matter under Extreme Conditions II
N60. Emerging Trends in Molecular Dynamics Simulations and Machine Learning IV
N61. Precision Many Body Physics II: Topology and Strong Correlations
N62. Quantum Embedding: Methods and Models
N64. Quantum Error Correction Foundations and Theory I
N65. Bose-Einstein Condensates I: Interferometry, and Nonlinear Waves
N66. Quantum Gases I
N67. Hybrid Quantum Systems II
N68. Creation, Control and Manipulation of Chiral Spin Textures
N70. Quantum Sensing Fundamentals
N71. Robust Control in High-Dimensional Hilbert Spaces
N72. Semiconductor Qubits: Spin Qubit Measurement II
N73. Quantum Generative Models
N74. Superconducting and Semiconductor Qubits I/O, Packaging, and 3D Integration I
N75. Novel Superconducting qubit designs and couplings
NN01. Plenary Session: APS Career Panel
Session O
OO02. APS Career Panel: Office Hours with Novarah K Policht
OO03. APS Career Panel: Office Hours with Cynthia Aku-Leh
OO04. APS Career Panel: Office Hours with Michelle Lollie
OO05. APS Career Panel: Office Hours with Brian Patton
Session P
PP01. V: Dirac and Weyl Semimetals
PP02. V: High-Pressure Virtual
PP03. V: Spin Transport and Magnetization Dynamics
PP04. V: Fluids II
PP05. V: Optical, Electronic, Ionic, and Piezoelectric Properties of Polymers and Composites
PP06. V: Focus Session: Error Mitigation and Noise Reduction
PP07. V: Ultracold Atomic Gases
PP08. V: Multicellular Phenomena II
PP09. V: Strongly Correlated Systems, Including Quantum Fluids and Solids III
PP10. V: Popular Physics
Session Q
Q01. Noise-driven Dynamics in Far-from-Equilibrium Systems
Q02. Statistical Physics of Networks: Theory and Applications
Q03. Programmed Responsive Polymers and Soft Matter II
Q04. Polymer Thin Films and Interfaces
Q05. Ultra-Stable Glasses
Q06. Genome Organization and Subnuclear Phenomena I: From DNA-Protein Interactions to Higher-Order Structures
Q07. Mechanisms of Self-Assembly: Biology and Beyond I
Q08. Molecular Machines II
Q09. Active Polymers: Organisation and Dynamics
Q10. Robophysics I
Q11. Intracellular Transport and Organization
Q12. Countering Misinformation in Physics Outreach and Public Engagement
Q13. Delbruck Prize Symposium
Q14. Functionality through Nonlinearity in Soft Robotics
Q15. Structural Relaxation in Dynamic Covalent Polymer Networks
Q16. Engineered Soft Materials: New Approaches, Mechanisms and Structures II
Q17. Chemical Physics of Plasmonic Nanostructures: Catalysis and Synthesis
Q18. Fluids IX
Q20. Matter at Extreme Conditions: Theory for Explosives and Chemistry
Q21. Confined Excitons
Q22. Superconductivity: Proximity & Related Effects
Q23. Electronic Structure of Topological Materials (photoemission, etc.)-II
Q24. Entropy Measurements in Mesoscopic and Nanoscopic Systems
Q25. Biomolecular Condensates II - Molecular Determinants
Q27. Superconductivity:Including Nitrides&Halides
Q28. Computational Design, Understanding and Discovery of Novel Materials VI
Q29. Strongly Correlated Systems, Including Quantum Fluids and Solids XIII
Q30. Strongly Correlated Systems, Including Quantum Fluids and Solids XIV
Q32. New Directions for Growth
Q33. Organic Optoelectronic Devices: Design and Performance
Q34. Semiconductor Materials for Beyond CMOS Electronics
Q36. Where Applications Meet Statistical and Nonlinear Physics
Q37. DCMP Prize Session
Q38. 2D Materials: Strong Correlations and Superconductivity
Q39. Superconducting Circuits and Devices
Q40. 2D Moiré Materials: Novel Fabrication and Materials
Q41. Synthesis and Spectroscopy
Q42. 2D Materials: Advanced Characterization IV
Q43. Novel Topological Superconductors
Q44. Topological Magnetic Materials in Space and Time
Q45. Advances in Detectors and Their Electronics
Q50. International Perspective for Young Physicists from Particle to Materials
Q51. Industry Fellows
Q53. AI and Statistical/Thermal Physics
Q54. Van der Waals Magnets
Q57. Magnonics II
Q58. Frustration on Square Lattices
Q59. First-Principles Simulations of Excited-State Phenomena: Applications
Q60. Emerging Trends in Molecular Dynamics Simulations and Machine Learning V
Q52. Advanced Technologies for Medical Physics
Q61. Precision Many Body Physics III: Novel Quantum States
Q55. Skyrmions and Chiral Spin Textures in Bulk Materials I
Q62. Quantum Many Body Systems & Methods II
Q56. Cooperative Phenomena (Spin Structures, Spin Waves, Phase Transitions) I
Q64. Quantum Error Correction Code Performance and Implementation
Q65. Non-Hermitian Physics
Q66. DAMOP: Hybrid Quantum Systems II
Q67. Hybrid Quantum Systems III
Q68. Politics and Techniques: Nuclear Testing in the Decades after World War II
Q70. Quantum Network Algorithms and Analysis
Q71. Quantum Optimal Control and Gate Synthesis
Q72. Superconducting and Semiconductor Qubits: I/O, Packaging, and 3D Integration II
Q73. Novel Devices and Methods for Error Mitigation
Q74. Semiconducting Qubits I
Q75. Superconducting Qubits Fabriaction
Session R
R10. FOEP Business Meeting
R12. DSOFT Business Meeting
R52. GMED Business Meeting
R51. FIAP Business Meeting
R53. GDS Business Meeting
R20. Q&A with DSOFT NSF Program Officer
RR01. V: Multiferroics and Ferroelectrics II
RR02. V: Energy Research
RR03. V: Frustrated Magnetism
RR04. V: Ultrafast Spectroscopy: Applications and Techniques
RR05. V: Semicrystalline, Block, and Star Polymers
RR07. V: Superconducting Quantum Information: Materials & Design
RR08. V: Quantum Software Stack
RR09. V: Strongly Correlated Systems, Including Quantum Fluids and Solids IV
RR10. V: Novel Bulk Materials and Interfaces
Session RR
RR06. V: Materials Chemical Physics
Session S
S01. Non-Equilibrium and Transient Mechanics of Granular and Soft Materials II
S02. Stochastic Thermodynamics of Biological and Artificial Information Processing
S03. Machine Learning, Autonomous Experiments, and Big Data in Polymer Physics I
S04. Single-Molecule Characterization in Polymers and Soft Matter: Morphology and Mechanics
S05. Physics of Soft Materials Advanced Manufacturing I: Extrusion and Performance
S06. Bacterial Communities I
S08. Genome Organization and Subnuclear Phenomena II: Active and Passive Processes in Genome Organization
S09. Externally Driven and Active Granular Matter
S10. Robophysics II
S11. Collective Behaviors in Biology I
S12. Mechanisms of Self-Assembly: Biology and Beyond
S13. Data-driven Dynamical Systems in Biology and Soft matter
S14. Social Interactions
S15. Organic Electronics: Controlling Morphology and Charge Transport
S16. Membranes, Micelles, and Vesicles
S17. Chemical Physics at the Middle Scales of Soft Matter II
S18. Fluids X
S19. Superconductivity:CuO_& Nickelates
S20. Graphene Electronic Phenomena
S21. Plasmons in 2D Materials
S22. Strong Electronic Correlations in Topological Materials: Theory and Experiment
S23. Electronic structure of topological materials (photoemission, etc.)-III
S24. Pyrochlore Coulomb Spin Liquids: From Fragmentation to Axions
S25. Topological Order
S27. Superconductivity:Devices & Materials-I
S28. Computational Design, Understanding and Discovery of Novel Materials VII
S29. Strongly Correlated Systems, Including Quantum Fluids and Solids XV
S30. Strongly Correlated Systems, Including Quantum Fluids and Solids XVI
S33. Physics at Interfaces
S34. Wolff-Reichert Award - Undergraduate Labs and Research
S37. Orbital selective superconductivity and related phenomena
S38. Light Induced Structural Control of Electronic Phases IV
S39. Electronic and Magnetic Properties of Correlated Oxide Heterostructures
S40. Other Defects
S41. Spin and Chiral Properties of Halide Perovskites
S42. Magnetic Order and Flat Bands in Topological Systems
S43. Tunable Magnetic Topological Insulators
S44. 2D Moiré Materials: Theory and First-principles Calculations
S45. Near-Field Infrared Nanospectroscopy
S50. Quantum-Accurate Atomistic Simulations at Extreme Scales: Recent Advances and New Challenges
S51. New Materials and Physics for Innovations in Telecommunications
S53. Machine Learning
S54. Nanomagnetic Systems: From Spin Textures to Topological Structures
S55. Skyrmions and Chiral Spin Textures in Bulk Materials II
S56. Spin Torques and Magnetoresistance
S59. Matter under Extreme Conditions III
S60. Electrochemical Interface I: Electrified Interfaces
S61. Precision Many Body Physics IV: Modeling and Real Materials
S62. Machine Learning for Quantum Matter IV
S64. Noisy Hardware Applications I
S65. Bose-Einstein Condensates II
S66. Open Quantum Systems II
S67. Hybrid Quantum Systems IV
S68. Definitive Signatures of Quantum Spin Liquids and Predictions for Experiments
S69. Quantum Machine Learning
S70. Quantum Annealers and Quantum Analog Computing
S71. Control of Quantum Systems
S72. Quantum Error Correction III
S73. Superconducting Qubits: Surfaces, treatments, and two-level systems
S74. Semiconducting Qubits II
S75. Advances in Superconducting Qubit Readout and Reset
SS01. V: Poster Sessions II (1:30pm-3pm, PST)
Session T
T1. Quantum Information and Spacetime
T2. Density Functional Theory
T3. Strange Metals
T4. Machine Learning and Model Inference for Biological Physicists
T5. Graph Neural Networks
T6. Communicating Biological Physics
T7. Physics of Climate
T8. Rydberg Computers
T00. Poster Session III (1pm-4pm PST)
T01. Steerable Particles: New Ways to Manipulate Fluid-Mediated Forces
T02. Information in Thermodynamics
T03. Machine Learning, Autonomous Experiments, and Big Data in Polymer Physics II
T04. Surfaces, Interfaces & Materials
T05. Organic Photonics: Light-Matter Interactions in Polymers and Organic Molecules
T06. Mechanics of Cells and Tissues IV
T07. Buckling Instabilities of Thin Materials II
T08. Physics of Proteins III: Evolution and Function of Molecular Interactions
T09. Textiles and Topology: Physics of Knots and Tangles
T10. Physics of Learning: Learning and Adaptation in Living Systems
T11. Collective Behaviors in Biology II
T12. Energy Research and Data Science
T13. Physics of biological computation across scales
T14. Biological Active Matter I
T15. Block Copolymer Self-Assembly
T16. Engineered Soft Materials: New Approaches, Mechanisms and Structures III
T17. Chemical Physics of Plasmonic Nanostructures: Imaging
T18. Fluids XI
T19. Strong Electronic Correlations in Topological Materials: Theory
T21. Moire Beyond Graphene II
T23. Metamaterials: Mechanical and Optical
T24. Recent Advances in Metal-Insulator Transitions: from Fundamentals to Applications
T25. Theory of Topological Insulators and Topological Band Structures
T27. Superconductivity:Devices & Materials-II
T29. Strongly Correlated Systems, Including Quantum Fluids and Solids XVII
T30. Strongly Correlated Systems, Including Quantum Fluids and Solids XVIII
T33. Nonergodic Dynamics Beyond Many-Body Localization
T34. Thermodynamic and Transport Properties
T36. DCOMP & GSNP Prize Symposium
T37. Quantum geometric advantage in opto-electronics
T38. Quantum Dots, Lanthanide Dopants, Molecules and Magnetism
T39. 2D Moiré Materials: Optical Properties
T40. Exotic Phonon Transport and Polaritons in Nanostructures
T41. Low-Dimensional Halide Perovskites
T42. Topological Superconductivity: Theory
T43. Topological Antiferromagnets and Altermagnets
T44. Optical methods in therapy and imaging
T45. Instrumentation for Spectroscopic and Scattering Techniques
T50. Learning Materials Properties and Dynamics with Graph Neural Network Models
T51. Data Science for Industry
T53. Data Science, ML and Active Matter
T54. Kitaev and Honeycomb Systems
T55. Correlated Electron Materials I
T56. Cooperative Phenomena (Spin Structures, Spin Waves, Phase Transitions) II
T57. Spin Transport and Dynamics in Antiferromagnets
T59. Electrochemical Interface II Electrochemistry and Catalysis in Aqueous Environments
T60. Emerging Trends in Molecular Dynamics Simulations and Machine Learning VI
T61. Precision Many Body Physics V: Dynamics
T62. Computational Methods for Statistical Mechanics: Advances and Applications II
T64. Noisy Hardware Applications II
T65. Photonics and Applications
T66. Quantum Gases II
T67. Continuous-Variable Quantum Information: Resources and Applications
T68. Magnetic Manipulation and Excitations in 2D Magnets
T69. Quantum Error Mitigation Techniques for Quantum Computation
T70. Quantum Machine Learning II
T71. Quantum Reservoir Engineering and Non-Reciprocal Interactions
T72. Crystal Defects Beyond Nitrogen Vacancy Centers
T73. Quantum Error Correction Foundations and Theory II
T74. Semiconducting Qubits III
T75. Understanding and Mitigating Decoherence in Superconducting Qubits
TT01. V: Non-Equilibrium and Transient Mechanics of Granular and Soft Materials
TT02. V: Computational Methods for Statistical Mechanics - Advances and Applications
TT03. V: Advances in Qubit Readout and Control
TT04. V: General Quantum Information and Foundations
TT05. V: Composites, Confinement, and Interfaces in Polymer Systems
TT06. V: Open Quantum Systems
TT08. V: Complex Structured Materials, Including Graphene III
TT09. ICTP-SAIFR Satellite Meeting: Network Dynamics and Synchronization
TT10. V: Quantum Many Body
Session TT
TT07. V: Superconductivity I
Session U
UU01. V: General Physics I
UU02. V: Magnetization and Spin Dynamics
UU03. V: Fluids III
UU04. V: Advanced Polymer Phenomena
UU05. V: Quantum Optimal Control
UU06. V: General AMO Physics
UU07. V: Superconductivity II
UU08. V: Complex Structured Materials, Including Graphene IV
UU09. V: Optical and Electronic Materials Physics
UU10. V: Data Science II
Session V
VV01. V: Poster Session III (7:00am-8:00am, PST)
Session W
W01. Soft Materials and Statistical Physics
W02. Thermodynamics of Many-body Quantum Systems
W03. Quantum Computing and Other Frontiers in Chemical Physics
W04. Single-Molecule Characterization in Polymers and Soft Matter: Topology and Transport
W05. Hybrid and Multicomponent Polymer Materials Containing Nanoparticles I
W06. Bacterial Communities II
W07. Liquid Crystals I
W08. Morphogenesis I
W09. Gel Rheology
W10. Robophysics III
W11. Collective Behaviors in Biology III
W12. Beyond the Linear Block Copolymer Phase Diagram
W13. Dense Active Matter: From Fluid to Solid
W14. Biological Active Matter II
W15. Simulation-based and Theoretical Insights into Polymer Physics
W16. Flow and Structure in Multiphase Systems
W17. Chemical Physics of Plasmonic Nanostructures: Hot Carriers and Strong Coupling
W18. Fluids XII
W19. Topology in Dynamical Systems
W20. 2D Materials Properties and Physics
W21. Non-carbon Nanostructures
W23. Superlattices, Heterostructures, and Nanocrystals
W24. Dynamical properties of complex systems
W25. Fractional Quantum Hall Effect 1: Theory and Experiment
W27. Superconductivity:Heavy Fermions
W28. Effective Strategies for Strengthening Physics Through Equity and Inclusion
W29. Strongly Correlated Systems, Including Quantum Fluids and Solids XIX
W30. Strongly Correlated Systems, Including Quantum Fluids and Solids XX
W33. Quantum Thermalization
W34. Transport Properties in 2D Materials and Semiconductors
W36. Non-equilibrium and equilibrium current distributions in Chern insulators
W37. Strongly correlation physics in transition metal dichalcogenides
W38. 2D Moiré Materials: Transport and Electronic Properties
W39. 2D Materials: Charge Density Waves, Skyrmions, and Electronic Structure
W40. Exotic Exciton Transport and Polaritons in Nanostructures
W41. Halide Perovskite Interactions with Radiation
W42. Superconductivity in Topological Systems
W43. Axion Insulators
W44. Dirac and Weyl Semimetal: Transport
W45. Advanced Coherent X-ray Sources
W50. Quantum in Industry: Quantum Information Hardware
W51. "And It Was a Very Good Year!" Anniversaries of Breakthroughs in Physics and Astronomy
W53. Data Science for Climate
W54. Skyrmion Based Devices
W55. Correlated Electron Materials II
W56. Quantum Spin Liquids, Theory II
W57. Topological, magnetoresistance and multiferroicity
W59. Electronic Structure Methods I
W60. Shastry-Sutherland and Quasi 1 D Systems
W62. Computational Methods for Statistical Mechanics: Advances and Applications III
W64. Noisy Hardware Applications III
W65. Quantum Information in AMO Physics II
W66. Quantum Optics
W67. Continuous-Variable Quantum Information: Hardware
W68. Developments in First-Principles Computations of Defects in Condensed Matter
W69. Few and Many-Body Quantum Optics
W70. Quantum Annealer Characterization
W72. Fault-Tolerance and Optimization
W73. Superconducting Qubits: cQED and Bosonic codes
W74. Semiconducting Qubits IV
W75. Superconducting Qubit Junction Dynamics and Materials
Session X
X01. Special Session featuring the 2022 Nobel Laureates
Session Y
Y01. Mechanics of Granular Materials
Y02. Quantum Thermodynamic Processes and Protocols
Y04. Physics of Soft Materials Advanced Manufacturing II: Photopolymers, Fibers, and Films
Y05. Hybrid and Multicomponent Polymer Materials Containing Nanoparticles II
Y06. Disordered, Glassy, and Jammed Behavior in Biological Matter
Y07. Liquid Crystals II
Y08. Evolutionary Dynamics I
Y09. Rheology of Multiphase Systems
Y10. Robophysics IV
Y11. Morphogenesis II
Y12. Recent Progress in Polymer Crystallization
Y13. Friday: Frontiers in Soft Matter
Y14. Plant Physics
Y15. Polymers and Polymer Composites for Energy Storage and Conversion Applications I
Y16. Multivalent and Complex Ions at Charged Interfaces
Y17. Structure and Dynamics in Chemical Physics
Y18. Fluids XIII
Y19. Floquet Topological Systems
Y20. Graphene Quantum Hall
Y21. Moire Beyond Graphene III
Y22. Superconductivity:Nikelates & others
Y23. Electronic Effects of Twisted 2D Heterostructures
Y24. Symmetry Resolved Entanglement in Strongly Correlated Systems
Y25. Fractional Quantum Hall Effect 2: theory and experiment
Y27. Superconductivity: General II
Y29. Strongly Correlated Systems, Including Quantum Fluids and Solids XXI
Y33. Dynamics of Entanglement and Quantum Information
Y36. Physics For Everyone & Student Award Symposium
Y37. Superconducting Diodes
Y40. Exotic Electron Transport and Polaritons in Nanostructures
Y41. Defects in Perovskites
Y42. Topological Crystalline Insulators
Y43. Emerging Magnetic Topological Materials
Y44. Dirac and Weyl Semimetal: Theory
Y45. Advances in Scanned Probe Microscopy
Y51. Ultrafast dynamics in condensed-phase systems.
Y53. Open Science and Data Sets
Y54. Magnetic Devices and Applications
Y55. Correlated Electron Materials III
Y56. Topological: magnetism and spin-dependent phenomena
Y57. Magnetization and Spin Dynamics II
Y59. Electronic Structure Methods II
Y64. Experiments on Current Noisy Quantum Hardware I
Y65. Cold Molecules and Applications
Y66. Non-Equilibrium Physics in AMO Systems II
Y67. Transduction for Hybrid Quantum Systems I
Y68. Multipolar Quantum Spin Liquids in Pyrochlore Lattice
Y69. Progress in Practical Fault-Tolerant Quantum Error Correction
Y70. Quantum System Learning
Y71. Improving Qubit Readout with Parametric Amplifiers
Y72. Time Evolution Quantum Algorithms
Y73. Superconducting Qubits: Novel Qubit and Gate Concepts
Y74. Semiconducting Qubits V
Y75. Superconducting Qubit Material Loss and Characterization
YY01. V: Chaotic and Driven Systems
YY02. V: Mechanics and More
YY03. V: Focus Session: AMO Qubits and Optimization
YY04. V: Superconductivity III
YY05. V: Complex Structured Materials, Including Graphene V
YY06. V: General Physics II
YY07. V: Complex Oxide Interfaces
YY08. V: Electronic Structure
YY09. V: Topological Phenomena I
YY10. V: Driven Topological Phases, Non-Hermitian Systems and Beyond
Session Z
Z01. Chaotic and Driven Systems
Z02. Experimental Advances and Open Quantum Systems in the Thermodynamic Regime
Z04. Polymer Crystals and Crystallization
Z05. Hybrid and Multicomponent Polymer Materials Containing Nanoparticles III
Z06. Genome Organization and Subnuclear Phenomena III: Measuring and Manipulating Genome Organization
Z07. Liquid Crystals III
Z08. Evolutionary Dynamics II
Z10. Emergent Behavior in Biological Systems
Z12. Soft Matter Physics and 3D Printing
Z13. Tumor-like Spheroids Embedded in Fibrous Environments and Interacting with Immune Cells
Z14. Electrostatic Self-Assembly
Z15. Polymers and Polymer Composites for Energy Storage and Conversion Applications II
Z16. DNA-based Soft Matter: Design, Dynamics, and Active Mechanics II
Z17. Nanoscale Chemical Physics and Other Frontiers
Z19. Drive engineering and topology
Z20. Non-Carbon 2D materials III
Z21. Carbon Nanostructures
Z23. 2D Materials: Optical and Electronic Properties
Z24. Orbital Ordering in Cuprates
Z25. Fractional Quantum Hall Effect 3: theory and experiment
Z33. Dissipative and Non-Hermitian Systems
Z36. Tunable low-density superconductivity in two dimensions
Z37. Topological phases through twist angle engineering
Z41. Defects in Low-dimensional Materials
Z42. Topological Semimetals
Z51. Physics Enabled Medical Devices
Z54. Magnetic Characterization and Imaging
Z55. Correlated Electron Materials IV
Z57. General Physics
Z59. Uncertainty Quantification for Soft Matter Physics and General Physics II
Z64. Experiments on Current Noisy Quantum Hardware II
Z65. Light Matter Interaction
Z66. DAMOP: Hybrid Quantum Systems III
Z67. Transduction for Hybrid Quantum Systems II
Z68. Molecular Spins for Next Generation Quantum Technologies
Z69. Recent advances in bosonic quantum error correction
Z70. Algorithms for Quantum Annealers and Analog Computers
Z71. Lumped-Element Parametric Amplifiers and Circulators
Z72. Simulating macrosopic quantum systems on NISQ devices
Z73. Quantum algorithm benchmarking and validation
Z74. Semiconducting Qubits VI
Z75. Superconducting Qubit Gate Performance, Control, Benchmarking and Scaling
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