skip to main content

Sessions

Astrophysics (DAP)

A1
Astrophysics: General Topics
A2
Dark Matter Astrophysics
A3
Dark Matter Constraints
A4
Dark Matter Theory and Cosmology
A5
Early Universe and Dark Energy
A6
Large Scale Structure and CMB
A7
Cosmology with Gravitational Waves
A8
Gravitational Wave Astronomy
A9
Compact Object Mergers
A10
Formation and Growth of Black Holes
A11
Merger Outflows and Jets
A12
Supernovae, Gamma-Ray Bursts, and Other Transients
A13
Pulsars and Neutron Stars
A14
Cosmic Ray Sources and Acceleration
A15
Cosmic Ray Spectrum and Composition
A16
Gamma Ray Astronomy
A17
Neutrino Astronomy
A18
Stars; The Interstellar Medium and Magnetic Fields
A19
Exoplanets, Planetary Physics, and Solar Physics
A20
Missions, Instruments, and Surveys
A21
New, Future, and Upgraded Observatories
A22
Physics of the Cosmos Minisymposium
A23
The Cosmic Microwave Background and High Energy Physics on the Cosmic Frontier
A24
Advances in Spectroscopic Cosmology
A1
Astrophysics: General Topics
A2
Dark Matter Astrophysics
A3
Dark Matter Constraints
A4
Dark Matter Theory and Cosmology
A5
Early Universe and Dark Energy
A6
Large Scale Structure and CMB
A7
Cosmology with Gravitational Waves
A8
Gravitational Wave Astronomy
A9
Compact Object Mergers
A10
Formation and Growth of Black Holes
A11
Merger Outflows and Jets
A12
Supernovae, Gamma-Ray Bursts, and Other Transients
A13
Pulsars and Neutron Stars
A14
Cosmic Ray Sources and Acceleration
A15
Cosmic Ray Spectrum and Composition
A16
Gamma Ray Astronomy
A17
Neutrino Astronomy
A18
Stars; The Interstellar Medium and Magnetic Fields
A19
Exoplanets, Planetary Physics, and Solar Physics
A20
Missions, Instruments, and Surveys
A21
New, Future, and Upgraded Observatories
A22
Physics of the Cosmos Minisymposium
A23
The Cosmic Microwave Background and High Energy Physics on the Cosmic Frontier
A24
Advances in Spectroscopic Cosmology

Few-Body Systems (GFB)

B1
Few-Body Systems: General Topics
B2
Few-body systems: general theory and computational methods (same as L06)
B3
Few-body systems: atoms & molecules
B4
Few-body systems: hadrons and light nuclei
B5
Few-body dynamics in many-body systems
B1
Few-Body Systems: General Topics
B2
Few-body systems: general theory and computational methods (same as L06)
B3
Few-body systems: atoms & molecules
B4
Few-body systems: hadrons and light nuclei
B5
Few-body dynamics in many-body systems

Gravitation (DGRAV)

C1
Quantum Theory of Gravity
C2
Modified Gravity
C3
Quantum Field Theory in a Curved Spacetime
C4
Gravitational Wave Detectors and Instrumentation
C5
Gravitational Wave Data Analysis Methods
C6
Gravitational Wave Observations and Results
C7
Astrophysics with Gravitational Waves
C8
Nuclear Physics and Particle Physics with Gravitational Waves
C9
Tests of General Relativity with Gravitational Waves
C10
Gravitational Waves with Pulsar Timing
C11
Gravitational Waveform Modeling of Compact Binaries
C12
Perturbative Methods in Classical General Relativity
C13
Other Aspects of Classical General Relativity
C14
Numerical Modeling of Binary Black Holes
C15
Numerical Modeling of Binaries with Matter
C16
Numerical Relativity Methods
C17
New Perspectives in Gravitational Physics
C1
Quantum Theory of Gravity
C2
Modified Gravity
C3
Quantum Field Theory in a Curved Spacetime
C4
Gravitational Wave Detectors and Instrumentation
C5
Gravitational Wave Data Analysis Methods
C6
Gravitational Wave Observations and Results
C7
Astrophysics with Gravitational Waves
C8
Nuclear Physics and Particle Physics with Gravitational Waves
C9
Tests of General Relativity with Gravitational Waves
C10
Gravitational Waves with Pulsar Timing
C11
Gravitational Waveform Modeling of Compact Binaries
C12
Perturbative Methods in Classical General Relativity
C13
Other Aspects of Classical General Relativity
C14
Numerical Modeling of Binary Black Holes
C15
Numerical Modeling of Binaries with Matter
C16
Numerical Relativity Methods
C17
New Perspectives in Gravitational Physics

Nuclear Physics (DNP)

D1
Nuclear Astrophysics
D2
Electroweak Interactions
D3
Neutrino Physics
D4
Fundamental Symmetries
D5
Neutron Physics
D6
Electromagnetic Interactions
D7
Ultrarelativistic Heavy-Ions
D8
Nuclear Reactions: Heavy-Ions/Rare isotope Beams
D9
Nuclear Reactions: Hadrons/Light Ions
D10
Nuclear Structure
D11
Hadronic Physics
D12
Nuclear Theory
D13
Nuclear Isotopes
D14
Instrumentation
D15
Applications of Nuclear Physics
D16
Other
D17a
minisymposium 1 (FINAL TITLE TBD)
D17b
minisymposium 2 (FINAL TITLE TBD)
D17c
minisymposium 3 (FINAL TITLE TBD)
D17d
minisymposium 4 (FINAL TITLE TBD)
D17e
minisymposium 5 (FINAL TITLE TBD)
D17f
minisymposium 6 (FINAL TITLE TBD)
D17g
minisymposium 7 (FINAL TITLE TBD)
D1
Nuclear Astrophysics
D2
Electroweak Interactions
D3
Neutrino Physics
D4
Fundamental Symmetries
D5
Neutron Physics
D6
Electromagnetic Interactions
D7
Ultrarelativistic Heavy-Ions
D8
Nuclear Reactions: Heavy-Ions/Rare isotope Beams
D9
Nuclear Reactions: Hadrons/Light Ions
D10
Nuclear Structure
D11
Hadronic Physics
D12
Nuclear Theory
D13
Nuclear Isotopes
D14
Instrumentation
D15
Applications of Nuclear Physics
D16
Other
D17a
minisymposium 1 (FINAL TITLE TBD)
D17b
minisymposium 2 (FINAL TITLE TBD)
D17c
minisymposium 3 (FINAL TITLE TBD)
D17d
minisymposium 4 (FINAL TITLE TBD)
D17e
minisymposium 5 (FINAL TITLE TBD)
D17f
minisymposium 6 (FINAL TITLE TBD)
D17g
minisymposium 7 (FINAL TITLE TBD)

Hadronic Physics (GHP)

E1
Hadronic Physics: General
E2
Light Mesons and Baryons
E3
Heavy Flavor Hadrons
E4
Hadron Spectroscopy and Exotics
E5
Nucleon Structure and Nucleon Spin
E6
QCD and Short Range Effects in Nuclei
E7
Partonic Structure of Nuclei
E8
Mini-Symposium: Early Science Results from Jefferson Lab 12 GeV Program
E9
Mini-Symposium: Results from RHIC Beam Energy Scan II
E1
Hadronic Physics: General
E2
Light Mesons and Baryons
E3
Heavy Flavor Hadrons
E4
Hadron Spectroscopy and Exotics
E5
Nucleon Structure and Nucleon Spin
E6
QCD and Short Range Effects in Nuclei
E7
Partonic Structure of Nuclei
E8
Mini-Symposium: Early Science Results from Jefferson Lab 12 GeV Program
E9
Mini-Symposium: Results from RHIC Beam Energy Scan II

Particles and Fields (DPF)

F1
Advanced Computational and Analysis Techniques
F2
Minisymposium on quantum sensors and computing
F3
Accelerators and beams
F4
Instrumentation and Detector R&D
F5
Dark Matter
F6
Minisymposium on Dark matter: Innovative ideas and techniques
F7
Axion and Hidden Sector Searches
F8
Particle Astrophysics (Astrophysical Neutrinos is now inside Particle Astrophysics)
F9
Neutrino Oscillations
F10
Sterile Neutrino Searches
F11
Neutrino Cross-sections
F12
Field theory and new theoretical developments
F13
Inflation/Cosmic Expansion/Dark Energy
F14
Physics of the Higgs boson
F15
Weak decays of heavy quarks
F16
Supersymmetry Searches and Models
F17
Beyond Standard Model Physics (Not including SUSY)
F18
Electroweak Physics
F19
Hadron spectroscopy and non-perturbative QCD
F20
QCD and Quark Matter
F21
Charged Lepton Properties
F22
Minisymposium on precision measurements with leptons
F1
Advanced Computational and Analysis Techniques
F2
Minisymposium on quantum sensors and computing
F3
Accelerators and beams
F4
Instrumentation and Detector R&D
F5
Dark Matter
F6
Minisymposium on Dark matter: Innovative ideas and techniques
F7
Axion and Hidden Sector Searches
F8
Particle Astrophysics (Astrophysical Neutrinos is now inside Particle Astrophysics)
F9
Neutrino Oscillations
F10
Sterile Neutrino Searches
F11
Neutrino Cross-sections
F12
Field theory and new theoretical developments
F13
Inflation/Cosmic Expansion/Dark Energy
F14
Physics of the Higgs boson
F15
Weak decays of heavy quarks
F16
Supersymmetry Searches and Models
F17
Beyond Standard Model Physics (Not including SUSY)
F18
Electroweak Physics
F19
Hadron spectroscopy and non-perturbative QCD
F20
QCD and Quark Matter
F21
Charged Lepton Properties
F22
Minisymposium on precision measurements with leptons

Precision Tests of Physics Laws (GPMFC)

G1
Precision Tests of Physics Laws
G2
Basic Symmetries
G3
Fundamental Constants
G4
General and Special Relativity
G5
Quantum Mechanics
G6
Other Precision Tests
G7
Searches for light dark matter (GPMFC, DAMOP)
G1
Precision Tests of Physics Laws
G2
Basic Symmetries
G3
Fundamental Constants
G4
General and Special Relativity
G5
Quantum Mechanics
G6
Other Precision Tests
G7
Searches for light dark matter (GPMFC, DAMOP)

Radiation Sources

H1
Radiation Sources: General
H2
Synchrotron Radiation Sources and Damping Rings
H3
Free Electron Laser Physics
H4
Gyrotron Physics
H5
Conventional Source Physics
H6
Radiation Sources, Other
H1
Radiation Sources: General
H2
Synchrotron Radiation Sources and Damping Rings
H3
Free Electron Laser Physics
H4
Gyrotron Physics
H5
Conventional Source Physics
H6
Radiation Sources, Other

Accelerators and Storage Rings

I1
Accelerators and Storage Rings
I2
High Energy Particle Accelerators and Colliders
I3
Low and Intermediate Energy Accelerators and Storage Rings
I4
Linear Accelerators
I5
Cyclotrons
I6
Electrostatic Accelerators
I7
Particle Sources
I8
New Acceleration Methods
I9
Pulsed Power and High Current Accelerators
I10
Special Purpose Accelerators (Medical, Energy Production, Industrial, Defense, Spallation Neutron Sources)
I11
Accelerators and Storage Rings, Other
I12
Computational beam and accelerator physics (same as J11, L11)
I1
Accelerators and Storage Rings
I2
High Energy Particle Accelerators and Colliders
I3
Low and Intermediate Energy Accelerators and Storage Rings
I4
Linear Accelerators
I5
Cyclotrons
I6
Electrostatic Accelerators
I7
Particle Sources
I8
New Acceleration Methods
I9
Pulsed Power and High Current Accelerators
I10
Special Purpose Accelerators (Medical, Energy Production, Industrial, Defense, Spallation Neutron Sources)
I11
Accelerators and Storage Rings, Other
I12
Computational beam and accelerator physics (same as J11, L11)

Physics of Beams (DPB)

J1
Linear Beam Dynamics
J2
Nonlinear Beam Dynamics
J3
Multiparticle Dynamics
J4
Beam Instabilities
J5
Beam Interaction with Electromagnetic Radiation
J6
Beam Interaction with Matter
J7
High Current Beams
J8
Photon Beams
J9
Beam Beam Interaction
J10
Beam Physics, Other
J11
Computational beam and accelerator physics (same as I12, L11)
J1
Linear Beam Dynamics
J2
Nonlinear Beam Dynamics
J3
Multiparticle Dynamics
J4
Beam Instabilities
J5
Beam Interaction with Electromagnetic Radiation
J6
Beam Interaction with Matter
J7
High Current Beams
J8
Photon Beams
J9
Beam Beam Interaction
J10
Beam Physics, Other
J11
Computational beam and accelerator physics (same as I12, L11)

Accelerator Systems

K1
Accelerator Systems
K2
Beam Diagnostics and Control
K3
RF Technology and Systems
K4
Magnet Technology and Systems
K5
Power Sources
K6
Beam Targets and Secondary Beams
K7
Beam Transport and Propagation
K8
Injection and Extraction
K9
Accelerator Systems, Other
K1
Accelerator Systems
K2
Beam Diagnostics and Control
K3
RF Technology and Systems
K4
Magnet Technology and Systems
K5
Power Sources
K6
Beam Targets and Secondary Beams
K7
Beam Transport and Propagation
K8
Injection and Extraction
K9
Accelerator Systems, Other

Computational Physics (DCOMP)

L1
Computational Physics
L2
Simulation Methods and Implementation
L3
Large-Scale Data and Simulations
L4
The Impact of New and Emerging Architectures on Computational Physics
L5
Education in Computational Physics, from K-12 to Graduate Level
L6
Few-body systems: general theory and computational methods (same as B02)
L7
Lattice QCD
L8
Numerical Relativity: Black Hole Binaries
L9
Numerical Relativity: Neutron Stars and Other Sources with Matter
L10
Numerical Relativity: Algorithms and Code Development
L11
Computational beam and accelerator physics (same as I12, J11)
L1
Computational Physics
L2
Simulation Methods and Implementation
L3
Large-Scale Data and Simulations
L4
The Impact of New and Emerging Architectures on Computational Physics
L5
Education in Computational Physics, from K-12 to Graduate Level
L6
Few-body systems: general theory and computational methods (same as B02)
L7
Lattice QCD
L8
Numerical Relativity: Black Hole Binaries
L9
Numerical Relativity: Neutron Stars and Other Sources with Matter
L10
Numerical Relativity: Algorithms and Code Development
L11
Computational beam and accelerator physics (same as I12, J11)

Physics Education (FED)

N1
Physics Education: General
N2
K-12 Education
N3
Informal Education and Public Outreach (FED, FOEP)
N4
Graduate Education
N5
Education and Public Policy
N6
Professional Development
N7
K-12 Teacher Preparation
N8
Undergraduate Education
N9
Remote Instruction
N10
Inclusive Classroom Practices
N1
Physics Education: General
N2
K-12 Education
N3
Informal Education and Public Outreach (FED, FOEP)
N4
Graduate Education
N5
Education and Public Policy
N6
Professional Development
N7
K-12 Teacher Preparation
N8
Undergraduate Education
N9
Remote Instruction
N10
Inclusive Classroom Practices

Physics Education Research (GPER)

P1
K-12 Education
P2
Informal Education and Public Outreach (GPER, FOEP)
P3
Graduate Education
P4
Education and Public Policy
P5
Professional Development
P6
K-12 Teacher Preparation
P7
Undergraduate Education
P1
K-12 Education
P2
Informal Education and Public Outreach (GPER, FOEP)
P3
Graduate Education
P4
Education and Public Policy
P5
Professional Development
P6
K-12 Teacher Preparation
P7
Undergraduate Education

Medical Physics (GMED)

Q1
Physics of medical therapies (e.g., radiation, photonic, and ultrasonic therapy, therapy guidance)
Q2
Physics of medical diagnostics (e.g., EEG, ECG, oximetry, blood pressure measurements)
Q3
Physics of medical imaging (e.g., CT, MRI, PET, SPECT, US, optical)
Q4
Physics of medical technologies (e.g., surgical hardware, decision systems, medical accelerators)
Q5
Physics of disease states and normal physiology (e.g., cancer, neuro-degenerative, immune system, vascular system)
Q6
Medical Data Analysis
Q7
General medical physics
Q1
Physics of medical therapies (e.g., radiation, photonic, and ultrasonic therapy, therapy guidance)
Q2
Physics of medical diagnostics (e.g., EEG, ECG, oximetry, blood pressure measurements)
Q3
Physics of medical imaging (e.g., CT, MRI, PET, SPECT, US, optical)
Q4
Physics of medical technologies (e.g., surgical hardware, decision systems, medical accelerators)
Q5
Physics of disease states and normal physiology (e.g., cancer, neuro-degenerative, immune system, vascular system)
Q6
Medical Data Analysis
Q7
General medical physics

Undergraduate Research (SPS)

R1
Undergraduate Research, including SPS
R1
Undergraduate Research, including SPS

National Facilities

S1
National Facilities: General
S1
National Facilities: General

Public Policy (FPS)

T1
Public Policy: General
T1
Public Policy: General

History of Physics (FHP)

U1
History of Physics: General
U1
History of Physics: General

International Physics (FIP)

V1
International Physics: Physics for Development
V2
International Physics: Science Diplomacy
V3
International Physics and Society
V4
International Engagement
V1
International Physics: Physics for Development
V2
International Physics: Science Diplomacy
V3
International Physics and Society
V4
International Engagement

Outreach (FOEP)

W1
Outreach and Engaging the Public: General
W1
Outreach and Engaging the Public: General

Data Science (GDS)

X1
Topical Group on Data Science (GDS)
X2
Data Science in Physics
X3
AI and Machine/Deep Learning
X4
Open Data and Data Science Education
X1
Topical Group on Data Science (GDS)
X2
Data Science in Physics
X3
AI and Machine/Deep Learning
X4
Open Data and Data Science Education

General Physics

Y1
April General Topics
Y1
April General Topics