Session Index
Session AA1. Kavli Foundation Plenary Session: 100 Years of Sub-Atomic Physics
Session B
B1. Solvay at One Hundred; Pais Prize Talk
B2. Tevatron Results
B3. Neutron Stars: What's the Matter?
B4. Hadron Spectroscopy and Exotic Particle Searches
B5. Electromagnetic Pulse Phenomena
B6. Plasma Physics of Cosmic Rays in Galaxies
B7. Nuclear Structure I: A<70
B8. Higgs Detection I
B9. Performance of Operating Detectors
B10. Electroweak Interactions
B11. New Instruments and Techniques for Astrophysics
B12. Quantum Aspects of Gravitation
B13. Undergraduate Research including SPS (all topics)
Session C
C1. Centennial of the Nuclear Atom
C2. Collider Signatures
C3. Time Domain Astrophysics
C4. Proton Charge Radius and Precision QED
C5. Nuclear Structure at the Limits of Stability
C6. Computational Physics: Algorithms to Applications
C7. Electromagnetic Interactions I
C8. Electroweak and Gauge Boson Physics
C9. New Techniques in Neutrino Detection
C10. Mini-symposium on Early-Time and Long-Range Correlations in Relativistic Heavy Ion Collisions I
C11. Cosmic Ray Measurements, Anisotropies and Propagation
C12. Self-force Calculations and their Implications for Gravitational Physics
C13. Educating and Exciting the Public about Physics
Session D
D1. Poster Session I (2:00-5:00PM)
Session E
E1. AdS/CFT Physics
E2. New Insights into the Short-Range, High-Momentum Components of the Nuclear Wavefunction
E3. Best Practices in Undergraduate Research Experiences
E4. Frontiers of Computational Astrophysics and Gravitation
E5. Nuclear Weapons at 65
E6. Accelerators for Sub-Atomic Physics: I. History
E7. Hadronic Physics I
E8. QCD Physics
E9. Physics of the Top Quark I
E10. Mini-symposium on Early-Time and Long-Range Correlations in Relativistic Heavy Ion Collisions II
E11. Theoretical Outlooks
E12. Spacetime Structure of Binary Black Hole Simulations
E13. Energy Research and Applications
Session F
F1. Welcome Reception
F2. Physics in Hollywood
Session G
G1. Lattice QCD and the Hadron Spectrum
G2. Progress in Quantum Gravity
G3. Millisecond Pulsars
G4. The Scent of Neutrinos
G5. Pipkin Award and Quantum Technologies for Gravitational Wave Detection
G6. Excellence in Physics Education Award Session
G7. Relativistic Heavy Ion Collisions I
G8. BSM via Resonances
G9. Tevatron Higgs Searches I
G10. Electromagnetic Interactions II
G11. Characterization and Instrumentation for Gravitational Wave Detection
G12. Gravitational Astrophysics
G13. Instrumentation for Dark Matter Detection
Session H
H1. Laboratory Plasma Astrophysics
H2. Advances in the Strong Interaction
H3. Frontiers in Computational Nuclear Physics
H4. Accelerators for Sub-Atomic Physics: II. Present and Near Future
H5. Panofsky Prize
H6. Physics Education Research: Solved Problems and Open Questions
H7. Relativistic Heavy Ion Collisions II
H8. Dark Matter Experiments and Neutron Shielding
H9. LHC SUSY Searches
H10. Mini-symposium on Parity Violation I
H11. X-Ray and Gamma-Ray Astrophysics
H12. Post-Newtonian Approximations and Alternative Theories of Gravity
H13. History of Physics I
H20. FED Business Meeting
H21. FPS Business Meeting
Session J
J1. The Essence of Neutrinos
J2. Centennial of Superconductivity
J3. New Results from the Cosmos
J4. Nuclear Theory
J5. Forum on Physics and Society, Awards Session
J6. The Digital Divide in 2010
J7. Instrumentation I
J8. Accelerator Neutrino Results
J9. Reactor Neutrino Experiments
J10. Mini-symposium on Parity Violation II
J11. Nuclear Structure II: A>70
J12. APS Editorial Q&A: APS and Open Access
J13. Integrating Modern Physics into the K-12 Curriculum I
Session K
K1. Poster Session II (2:00-5:00PM)
Session L
L1. Sakurai Prize
L2. Relativistic Viscous Hydrodynamics at RHIC (DNP Thesis Prize Session)
L3. Astrophysical Flares
L4. High Precision Spectroscopy
L5. Initiatives for Broadening Participation of Minorities in Graduate Level Physics
L6. Energy Research & Applications: Alternative Fuels
L7. Applications and Instrumentation
L8. Tevatron and LHC BSM Searches
L9. LHC Searches
L10. Mini-symposium on Parity Violation III
L11. Solar and Supernova Neutrinos, Compact Objects
L12. Strong-field gravity: black holes, event horizons, and cosmology
L13. Integrating Modern Physics into the K-12 Curriculum II
Session M
M1. APS Past President's Address and Prizes and Awards Ceremonial Session
Session N
N1. Discovery Science in a Time of Harsh Budgetary Constraints
Session P
P1. Plenary Session II
Session Q
Q1. The Standard Model and Beyond
Q2. Neutrinos and Fundamental Symmetries
Q3. Direct Detection of Dark Matter
Q4. So Many Dynamos: Flow Generated Magnetic Fields in Nature, in the Computer, and in the Lab I
Q5. Physics and Engineering of Deep Water Drilling
Q6. Spectroscopy and Interactions in Four & More-Body Systems: Efimov Spectrum
Q7. Nuclear Astrophysics I
Q8. Proposed Neutrino Experiments
Q9. Physics of the Top Quark II
Q10. Hadronic Physics II
Q11. New Theories of Cosmology & Astrophysics
Q12. Numerical Relativity: Black Holes, Neutron Stars and Accretion Disks
Q13. International Physics
Session R
R1. Neutron Stars and the Dense Matter Equation of State
R2. LHC Results
R3. Black Holes: Nature's Ultimate Spinmeisters
R4. So Many Dynamos: Flow Generated Magnetic Fields in Nature, in the Computer, and in the Lab II
R5. The Status of Arms Control
R6. Accelerators for Sub-Atomic Physics: III. Future
R7. Neutrinos I
R8. Charm and B Physics I
R9. Charm and B Physics II
R10. Hadronic Physics III
R11. WIMP and Axion Searches
R12. Physics Education
R13. Precision Measurements, Fundamental Symmetries, and Tests of the Standard Model
Session S
S1. Poster Session III (2:00-5:00PM)
Session T
T1. The Future of Particle Physics
T2. Observational Implications of Gravitational-Wave Observations
T3. The Death of Massive Stars
T4. Bonner Prize Session
T5. FIP Prize Session
T6. Effective Use of Technology: Engaging Students Inside and Outside Classrooms
T7. CMB, Structure Formation, Reionization, Indirect Detection
T8. Electroweak Physics
T9. High Energy Neutrino Detection
T10. History of Physics II
T11. Background Supression in Noble Gas Dark Matter Detectors
T12. Numerical Relativity: Algorithms and Code Development
T13. Pushing the Boundariesof Quantum Mechanics and Gravity
Session U
U1. DPF Business Meeting
U4. DNP Business Meeting
U5. FIP Business Meeting
U7. DAP Business Meeting
U10. FHP Business Meeting
U11. GGR Business Meeting
U13. GPMFC Business Meeting
Session V
V1. Plenary Session III
Session X
X1. Enhancing Performance and Retention of Under-Represented Students in Undergraduate Physics
X2. Working with Luis Alvarez (1911-1988)
X3. Progess in Nuclear Physics
X4. Einstein Prize and New Methods for Old Problems in Gravitational Physics
X5. Plasmas, Planets and Protostars
X6. Beyond the Standard Model
X7. Nuclear Astrophysics II
X8. Charm and B Physics III
X9. Charm and B Physics IV
X10. Reactions: Rare Isotopes/Heavy Ions/Fission
X11. Dark Matter, Dark Energy and Structure
X12. Signal Analysis Methods for Gravitational-wave Detection
Session Y
Y1. Much Ado About Nothing: The Quantum Vacuum
Y2. Massive Neutron Stars and Dense Matter
Y3. Searching for Dark Matter in Dwarf Spheroidal Galaxies
Y4. QCD in Nuclear Physics
Y5. Science Diplomacy
Y6. Best Practices in K12 Physics Teacher Preparation Programs
Y7. Neutrinos II
Y8. Novel Instrumentation
Y9. Tevatron BSM Searches I
Y10. Instrumentation II
Y11. Gravitational Wave Astronomy
Y12. Numerical Relativity: Binaries with Matter
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