DAMOP 2006

DAMOP Abstract Submission

Complete contributed abstract submission instructions can be found at http://www.aps.org/meet/abstracts. Authors of invited papers will receive instructions on abstract submission. The deadline for receipt of contributed and invited abstracts is Friday, January 27, 2006 at 5:00 p.m. EST.  Post-deadline papers will be accepted until Wednesday, March 15, 2006, at 5:00 p.m. EST. We strongly urge you to proof your abstract before submission. NOTE: We are no longer accepting abstracts via e-mail.

To submit a contributed abstract using the online web submission process, an author needs to know two things:
(1) The number and ordering of authors and collaborators; and
(2) Abstract content.

The web page will guide you through the rest. Try a test submission before submitting your abstract. Log onto http://abstracts.aps.org and select the meeting TEST. Follow the directions online to create your own practice abstract. When you are ready to submit your abstract online, select the meeting DAMOP06 by clicking on the appropriate button. A form will be created for you. Simply input the information.

Please note: Invited speakers should refer to their letters of invitation for instructions on locating the invited abstract template.

If you have questions regarding abstract submission, please send them to abs-help@aps.org.

Please use the sorting categories below when submitting contributed papers. If you do not find the exact category that is appropriate for your abstract, use one that best describes your work. Note that theoretical and experimental works are not distinguished by these categories.

Sorting Categories.  An Adobe Acrobat pdf version is also available >>

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

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 Strong field (intense laser) processes
    2.4 Short pulse (e.g., attosecond, femtosecond) processes

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 and positron scattering
    3.4 Ion-atom and ion-ion scattering
    3.5 Collisions involving clusters
    3.6 Collisions involving surfaces

4. Quantum Optics, Matter Optics, and Coherent Control
    4.1 Wavepacket dynamics and coherent control
    4.2 Atom optics and atom interferometry
    4.3 Quantum and/or nonlinear optics
    4.4 Cavity QED

5. Quantum Information
    5.1 Entanglement, decoherence, and error correction
    5.2 Quantum teleportation and/or quantum cryptography
    5.3 Quantum computation

6. Cold, Atoms, Molecules, and Plasmas
    6.1 Bose-Einstein condensates
    6.2 Degenerate Fermi gases
    6.3 Atoms in optical lattices
    6.4 Ultracold collisions and photoassociation processes
    6.5 Laser cooling and trapping
    6.6 Low temperature plasmas

7. Special Topics
    7.1 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