Nonrelativistic Effective Field Theory for Axions

Abstract

Axions can be described by a relativistic field theory with a real scalar field φ whose self-interaction potential is a periodic function of φ. Low-energy axions, such as those produced in the early universe by the vacuum misalignment mechanism, can be described more simply by a nonrelativistic effective field theory with a complex scalar field whose effective potential is a function of *. We determine the coefficients in the expansion of the effective potential to fifth order in * by matching low-energy axion scattering amplitudes. In order to describe a Bose-Einstein condensate of axions that is too dense to expand the effective potential in powers of *, we develop a sequence of systematically improvable approximations to the effective potential that include terms of all orders in *.