Cold Atoms and Molecules

Cold atoms are that are maintained at the temperatures close to zero Kelvin typically below the temperatures of some tenths of microkelvins (µK). The atom's quantum mechanical properties become important at these temperatures. Cold molecules offer exciting properties on which new operational principles are to be based or that may allow the researchers to study a qualitatively new behaviour of the matter for e.g., Bose-Einstein condensates structured by the electric dipole interaction. To reach such low temperature combination of several techniques are used such as atoms are usually trapped and pre-cooled using the laser cooling in a magneto-optical trap technique.

  • Laser cooling
  • Electric dipole moments of polar molecules
  • Detecting atom cloud
  • Doppler cooling
  • Magneto-optical traps
  • Cold atom clocks
  • Magnetic trapping
  • Detecting atom cloud
  • Cold controlled collision
  • Electric dipole moments of polar molecules
  • Isotope shifts in molecular transitions
  • Cold atom clocks and application

Related Conference of Cold Atoms and Molecules

February 27-28, 2019

Global Meet on Astrophysics & Space Science

Paris, France
April 08-09, 2019 |

European Meet on Laser, Optics & Photonics

Prague, Czech Republic
May 13-14, 2019

6th World Congress on Physics

Paris, France
May 13-14, 2019

13th International Conference on Optics, Lasers & Photonics

Radisson Hotel Narita | Tokyo, Japan
August 19-20, 2019

Asia Pacific Physics Conference

Tokyo, Japan
October 14-16, 2019

5th International Conference on Physics

London, UK

Cold Atoms and Molecules Conference Speakers