Probing the Spectral Function Using Momentum Resolved Radio Frequency Spectroscopy in Trapped Fermi Gases

Abstract

We address recent momentum resolved radio frequency (RF) experiments on ultracold trapped Fermi gases of 40K. We show that momentum resolved RF probes provide measurements of the centrally important fermionic spectral function. They also serve to remove ambiguity plaguing the interpretation of momentum integrated RF experiments by establishing a clear dispersion signature of pairing. We find that the temperature dependence of the spectral function is dramatic at unitarity, and, importantly, smooth from above to below Tc throughout BCS-BEC crossover. This should be tested experimentally, given widespread predictions of first order behavior.