Open Science Research Excellence

ICAMOP 2020 : International Conference on Atomic, Molecular and Optical Physics

London, United Kingdom
March 12 - 13, 2020

Call for Papers

ICAMOP 2020 : International Conference on Atomic, Molecular and Optical Physics is the premier interdisciplinary platform for the presentation of new advances and research results in the fields of Atomic, Molecular and Optical Physics. The conference will bring together leading academic scientists, researchers and scholars in the domain of interest from around the world. Topics of interest for submission include, but are not limited to:
  • Accelerator based AMO Experiments
  • Applications of AMO Physics
  • Astronomical/Atmospheric Processes
  • Atom and Ion Traps
  • Atom interferometry and atomic clocks
  • Atomic and molecular astrophysics
  • Atomic and molecular collisions
  • Atomic and molecular processes in plasmas
  • Atomic and molecular spectroscopy
  • Atomic tests of fundamental physics
  • Atoms in optical lattices
  • Attosecond physics
  • Bose-Einstein condensates
  • Cavity QED
  • Clusters and nanoparticles
  • Coherent control
  • Cold atoms and molecules
  • Degenerate quantum gases
  • Electron Collisions
  • Fundamental physics, precision measurements and metrology
  • High pressure plasma sources
  • Intense Laser-Matter Interactions
  • Ion-Atom-Molecule Collisions
  • Laser produced plasmas
  • Laser spectroscopy
  • Low pressure plasma sources
  • Molecular reaction dynamics
  • Photon induced processes
  • Photophysics and collisions of biomolecules
  • Physical basis of plasma chemistry
  • Plasma and discharges theory and simulation
  • Plasma diagnostics
  • Plasma surface interaction (boundary layers, sheath, surface processes)
  • Plasmas and gas flows
  • Precision measurements
  • Quantum information processing with atoms and ions
  • Quantum optics and cavity QED with atoms
  • Quantum Optics and Information
  • Self-organization in plasmas, dusty plasmas
  • Strong fields
  • Structure and Spectroscopy
  • Surface reaction dynamics and self-assembly
  • Surfaces and Clusters
  • Transport phenomena, particle velocity distribution function
  • Ultracold atoms and molecules
  • Ultracold Fermi gases
  • Ultra-Cold Systems
  • Ultrafast dynamics
  • Ultrafast phenomena and intense field interactions
  • Upper Atmospheric Plasmas and Space Plasmas