We investigate the gravitational anomaly vertex (TTJ5) (graviton-graviton-axial current) under conditions of finite density and temperature. Through a direct analysis of perturbative contributions, we demonstrate that neither finite temperature nor finite fermion density affects the gravitational chiral anomaly. These results find application in several contexts, from topological materials to the early Universe plasma. They affect the decay of any axion or axionlike particle into gravitational waves, in very dense and hot environments.
Gravitational chiral anomaly at finite temperature and density
Coriano C.;Lionetti S.;
2024-01-01
Abstract
We investigate the gravitational anomaly vertex (TTJ5) (graviton-graviton-axial current) under conditions of finite density and temperature. Through a direct analysis of perturbative contributions, we demonstrate that neither finite temperature nor finite fermion density affects the gravitational chiral anomaly. These results find application in several contexts, from topological materials to the early Universe plasma. They affect the decay of any axion or axionlike particle into gravitational waves, in very dense and hot environments.File in questo prodotto:
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