Clock shift in a strongly interacting two-dimensional Fermi gas

Abstract

We derive universal relations for the radio-frequency (rf) spectroscopy of a two-dimensional Fermi gas consisting of two spin states with a resonant S-wave interaction. The rf transition rate has a high-frequency tail that is proportional to the contact and displays logarithmic scaling violations, decreasing asymptotically like 1/(ω2 2 ω). Its coefficient is proportional to 2(a2D'/a2D), where a2D and a2D' are the 2-dimensional scattering lengths associated with initial-state and final-state interactions. The clock shift is proportional to the contact and to (a2D'/a2D). If |(a2D'/a2D)| 1, the clock shift arises as a cancellation between much larger contributions proportional to 2(a2D'/a2D) from bound-bound and bound-free rf transitions.