We take into account two further physical models which play an utmost importance in the framework of analog gravity. We first consider Bose-Einstein condensates (BEC) and then surface gravity waves in water. Our approach is based on the use of the master equation we introduced in a previous work. A more complete analysis of the singular perturbation problem involved, with particular reference to the behavior in the neighborhood of the (real) turning point and its connection with the Wentzel-Kramers-Brillouin approximation, allows us to verify the thermal character of the particle production process. Furthermore, we can provide a simple scheme apt to calculate explicitly the gray-body factors in the case of BEC and surface waves. This corroborates the improved approach we proposed for studying the analog Hawking effect in the usual limit of small dispersive effects.
Analog Hawking effect: BEC and surface waves
Belgiorno F.
;Cacciatori S. L.
;
2020-01-01
Abstract
We take into account two further physical models which play an utmost importance in the framework of analog gravity. We first consider Bose-Einstein condensates (BEC) and then surface gravity waves in water. Our approach is based on the use of the master equation we introduced in a previous work. A more complete analysis of the singular perturbation problem involved, with particular reference to the behavior in the neighborhood of the (real) turning point and its connection with the Wentzel-Kramers-Brillouin approximation, allows us to verify the thermal character of the particle production process. Furthermore, we can provide a simple scheme apt to calculate explicitly the gray-body factors in the case of BEC and surface waves. This corroborates the improved approach we proposed for studying the analog Hawking effect in the usual limit of small dispersive effects.
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