Buffer gas cooling and trapping of atoms with small magnetic moments

Abstract

Buffer gas cooling was extended to trap atoms with small magnetic moment (mu). For mu greater than or equal to 3muB, 1e12 atoms were buffer gas cooled, trapped, and thermally isolated in ultra high vacuum with roughly unit efficiency. For mu < 3muB, the fraction of atoms remaining after full thermal isolation was limited by two processes: wind from the rapid removal of the buffer gas and desorbing helium films. In our current apparatus we trap atoms with mu greater than or equal to 1.1muB, and thermally isolate atoms with mu greater than or equal to 2muB. Extrapolation of our results combined with simulations of the loss processes indicate that it is possible to trap and evaporatively cool mu = 1muB atoms using buffer gas cooling.

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