Publication: Buffer-Gas Cooled Bose-Einstein Condensate
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Date
2009
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American Physical Society
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Doret, S. Charles, Colin B. Connolly, Wolfgang Ketterle, and John M. Doyle. 2009. Buffer-gas cooled Bose-Einstein condensate. Physical Review Letters 103(10): 103005.
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Abstract
We report the creation of a Bose-Einstein condensate using buffer-gas cooling, the first realization of Bose-Einstein condensation using a broadly general method which relies neither on laser cooling nor unique atom-surface properties. Metastable helium (\(^4\)He*) is buffer-gas cooled, magnetically trapped, and evaporatively cooled to quantum degeneracy. 10\(^{11}\) atoms are initially trapped, leading to Bose-Einstein condensation at a critical temperature of \(5 \mu K\) and threshold atom number of 1.1×10\(^6\). This method is applicable to a wide array of paramagnetic atoms and molecules, many of which are impractical to laser cool and impossible to surface cool.
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