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Limits to the analog Hawking temperature in a Bose-Einstein condensate

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Wuester, Sebastian
Savage, Craig

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American Physical Society

Abstract

Quasi-one-dimensional outflow from a dilute gas Bose-Einstein condensate reservoir is a promising system for the creation of analog Hawking radiation. We use numerical modeling to show that stable sonic horizons exist in such a system under realistic conditions, taking into account the transverse dimensions and three-body loss. We find that loss limits the analog Hawking temperatures achievable in the hydrodynamic regime, with sodium condensates allowing the highest temperatures. A condensate of 30 000 atoms, with transverse confinement frequency ω =6800×2π Hz, yields horizon temperatures of about 20 nK over a period of 50 ms. This is at least four times higher than for other atoms commonly used for Bose-Einstein condensates.

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Physical Review A: Atomic, Molecular and Optical Physics

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Restricted until

2037-12-31