Open AccessSpatially truncated optical pumping cooling
Author(s) -
Jonathan R. Gilbert,
Rebekah F. Wilson,
Jacob Roberts
Publication year - 2019
Publication title -
new journal of physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.584
H-Index - 190
ISSN - 1367-2630
DOI - 10.1088/1367-2630/ab14a6
Subject(s) - physics , laser cooling , photon , resolved sideband cooling , atomic physics , ultracold atom , polarization (electrochemistry) , doppler cooling , raman cooling , optical pumping , laser , optics , quantum mechanics , quantum , scattering , inelastic scattering , x ray raman scattering , chemistry
We present both the theoretical description and experimental implementation of a novel cooling technique for ultracold atoms trapped in a confining potential. We call the technique ‘spatially truncated optical pumping cooling.’ By using the fact that the internal states of atoms can be manipulated by laser light focused on only part of a confined ultracold gas, high energy atoms can be preferentially selected and then slowed to achieve cooling without requiring the loss of any atoms. This technique uses cooling photons more efficiently on a per photon basis than Doppler or polarization gradient cooling, while having approximately the same degree of difficulty with regard to experimental implementation.