English

Three-dimensional laser cooling at the Doppler limit

Atomic Physics 2015-06-22 v2 Quantum Gases

Abstract

Many predictions of Doppler cooling theory of two-level atoms have never been verified in a three-dimensional geometry, including the celebrated minimum achievable temperature Γ/2kB\hbar \Gamma/2 k_B, where Γ\Gamma is the transition linewidth. Here, we show that, despite their degenerate level structure, we can use Helium-4 atoms to achieve a situation in which these predictions can be verified. We make measurements of atomic temperatures, magneto-optical trap sizes, and the sensitivity of optical molasses to a power imbalance in the laser beams, finding excellent agreement with the Doppler theory. We show that the special properties of Helium, particularly its small mass and narrow transition linewidth, prevent effective sub-Doppler cooling with red-detuned optical molasses.

Keywords

Cite

@article{arxiv.1409.2519,
  title  = {Three-dimensional laser cooling at the Doppler limit},
  author = {Rockson Chang and Lynn Hoendervanger and Quentin Bouton and Yami Fang and Tobias Klafka and Kevin Audo and Alain Aspect and Christoph I Westbrook and David Clément},
  journal= {arXiv preprint arXiv:1409.2519},
  year   = {2015}
}

Comments

8 pages, 5 figures

R2 v1 2026-06-22T05:51:50.129Z