English

Intense Atomic and Molecular Beams via Neon Buffer Gas Cooling

Atomic Physics 2015-05-13 v1
Authors: David Patterson , Julia Rasmussen , John M. Doyle
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Abstract

We realize a continuous guided beam of cold deuterated ammonia with a flux of 3e11 ND3 molecules/s and a continuous free-space beam of cold potassium with a flux of 1e16 K atoms/s. A novel feature of the buffer gas source used to produce these beams is cold neon, which, due to intermediate Knudsen number beam dynamics, produces a forward velocity and low-energy tail that is comparable to much colder helium-based sources. We expect this source to be trivially generalizable to a very wide range of atomic and molecular species with significant vapor pressure below 1000 K. This source has properties that make it a good starting point for laser cooling of molecules or atoms, cold collision studies, trapping, or nonlinear optics in buffer-gas-cooled atomic or molecular gases.

Keywords

laser cooling and trapping electron emission plasma physics

Cite

@article{arxiv.0812.2212,
  title  = {Intense Atomic and Molecular Beams via Neon Buffer Gas Cooling},
  author = {David Patterson and Julia Rasmussen and John M. Doyle},
  journal= {arXiv preprint arXiv:0812.2212},
  year   = {2015}
}

Comments

15 pages, 6 figures

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