Temperature and coupling dependence of the universal contact intensity for an ultracold Fermi gas

Recent experimental advances in ultracold Fermi gases allow for exploring response functions under different dynamical conditions. In particular, the issue of obtaining a “quasirepulsive” regime starting from a Fermi gas with an attractive interparticle interaction while avoiding the formation of the two-body bound state is currently debated. Here, we provide a calculation of the density and spin response for a wide range of temperature and coupling both in the attractive and quasirepulsive regime, whereby the system is assumed to evolve nonadiabatically toward the “upper branch” of the Fermi gas. A comparison is made with the available experimental data for these two quantities.



Titolo: Temperature and coupling dependence of the universal contact intensity for an ultracold Fermi gas
Autori: 
PALESTINI, FABRIZIO
PERALI, Andrea
PIERI, Pierbiagio
CALVANESE STRINATI, Giancarlo
Data di pubblicazione: 2010
Rivista: 
PHYSICAL REVIEW A  
Abstract: Recent experimental advances in ultracold Fermi gases allow for exploring response functions under different dynamical conditions. In particular, the issue of obtaining a “quasirepulsive” regime starting from a Fermi gas with an attractive interparticle interaction while avoiding the formation of the two-body bound state is currently debated. Here, we provide a calculation of the density and spin response for a wide range of temperature and coupling both in the attractive and quasirepulsive regime, whereby the system is assumed to evolve nonadiabatically toward the “upper branch” of the Fermi gas. A comparison is made with the available experimental data for these two quantities.
Handle: http://hdl.handle.net/11581/202750
Appare nelle tipologie:Articolo

File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
 
 
 
Powered by IRIS-about IRIS-Utilizzo dei cookie
Logo CINECA  Copyright © 2020