Sorting Categories
1. Atomic and Molecular Structure and Properties
1.1 Spectroscopy, lifetimes, oscillator strengths
1.2 Atomic and molecular structure, including in static fields
1.3 Fundamental symmetries and precision measurements
1.4 Focus Session: Searches for relativity violations
1.5 Focus Session: Atomic polarization and dispersion
2. Photon Interactions with Atoms, Ions, and Molecules
2.1 Atomic photoionization and photodetachment processes
2.2 Molecular photoionization, photodetachment, and photodissociation processes
2.3 The ultra intense laser frontier (strong field (intense laser) processes)
2.4 Short pulse (e.g., attosecond, femtosecond) processes
2.5 Focus Session: Ultrafast ionization
3. Atomic, Molecular, and Charged Particle Collisions
3.1 Atom-atom and atom-molecule collisions
3.2 Reactive scattering and recombination processes
3.3 Electron-Atom Collisions
3.4 Electron-Molecule Collisions
3.5 Collisions involving antimatter
3.6 Ion-atom and ion-ion collisions
3.7 Collisions involving clusters
3.8 Collisions involving surfaces
4. Quantum Optics, Matter Optics, and Coherent Control
4.1 Focus Session: Wavepacket dynamics and coherent control
4.2 Atom optics
4.3 Matter wave interferometry
4.4 Quantum and/or nonlinear optics
4.5 Slowing and stopping light
4.6 Focus Session: Cavity QED
5. Quantum Information
5.1 Entanglement, decoherence, and error correction
5.2 Quantum cryptography and communication
5.3 Quantum computation
5.4 Quantum measurement
6. Cold Atoms, Molecules, and Plasmas
6.1 Bose-Einstein condensates
6.2 Degenerate Fermi gases
6.3 Atoms in optical lattices
6.4 Dynamic and out-of-equilibrium phenomena in cold atoms
6.5 Ultracold collisions and photoassociation processes
6.6 Focus session: Quantum Monte Carlo calculations of cold gases
6.7 Laser cooling and trapping
6.8 Low temperature plasmas
6.9 Focus Session: Vortices and solitons
6.10 Focus Session: Ultracold dipolar gases
6.11 Focus Session: Reduced dimensionality BECs
7. Special Topics
7.1 Focus Session: Rydberg atoms and molecules
7.2 Exotic atoms and molecules
7.3 Nonlinear dynamics
7.4 New experimental techniques
7.5 New theoretical methods
7.6 Applications of AMO science
1.1 Spectroscopy, lifetimes, oscillator strengths
1.2 Atomic and molecular structure, including in static fields
1.3 Fundamental symmetries and precision measurements
1.4 Focus Session: Searches for relativity violations
1.5 Focus Session: Atomic polarization and dispersion
2. Photon Interactions with Atoms, Ions, and Molecules
2.1 Atomic photoionization and photodetachment processes
2.2 Molecular photoionization, photodetachment, and photodissociation processes
2.3 The ultra intense laser frontier (strong field (intense laser) processes)
2.4 Short pulse (e.g., attosecond, femtosecond) processes
2.5 Focus Session: Ultrafast ionization
3. Atomic, Molecular, and Charged Particle Collisions
3.1 Atom-atom and atom-molecule collisions
3.2 Reactive scattering and recombination processes
3.3 Electron-Atom Collisions
3.4 Electron-Molecule Collisions
3.5 Collisions involving antimatter
3.6 Ion-atom and ion-ion collisions
3.7 Collisions involving clusters
3.8 Collisions involving surfaces
4. Quantum Optics, Matter Optics, and Coherent Control
4.1 Focus Session: Wavepacket dynamics and coherent control
4.2 Atom optics
4.3 Matter wave interferometry
4.4 Quantum and/or nonlinear optics
4.5 Slowing and stopping light
4.6 Focus Session: Cavity QED
5. Quantum Information
5.1 Entanglement, decoherence, and error correction
5.2 Quantum cryptography and communication
5.3 Quantum computation
5.4 Quantum measurement
6. Cold Atoms, Molecules, and Plasmas
6.1 Bose-Einstein condensates
6.2 Degenerate Fermi gases
6.3 Atoms in optical lattices
6.4 Dynamic and out-of-equilibrium phenomena in cold atoms
6.5 Ultracold collisions and photoassociation processes
6.6 Focus session: Quantum Monte Carlo calculations of cold gases
6.7 Laser cooling and trapping
6.8 Low temperature plasmas
6.9 Focus Session: Vortices and solitons
6.10 Focus Session: Ultracold dipolar gases
6.11 Focus Session: Reduced dimensionality BECs
7. Special Topics
7.1 Focus Session: Rydberg atoms and molecules
7.2 Exotic atoms and molecules
7.3 Nonlinear dynamics
7.4 New experimental techniques
7.5 New theoretical methods
7.6 Applications of AMO science
