On the viability of the QCD axion - dark energy transition

Abstract

This conference thesis summarizes my presentation at Tartu Tuorla Cosmology meeting based on a collaborative work with E.Nardi and C.Smarra Muursepp:2024mbb. It is well known that a pseudo-Nambu Goldstone boson (pNGB) coupled to a confining gauge group obtains a non-zero contribution to its mass through instanton effects. At non-zero temperature, this manifests in temperature-dependent mass m2(T) T-n. If these particles come to dominate the energy density of the Universe in the non-relativistic regime they would accelerate the expansion of the Universe for n>2, thus providing a dark energy (DE) component. In this work, we outline a scenario in which a pNGB φb presently undergoing confinement could realize such a scenario. Using energetic considerations we find that φb alone is not enough to produce the experimentally observed amount of DE. However, coupling φb to the QCD axion φa allows the transfer of energy from the QCD axion to the pNGB via non-adiabatic level-crossing thus reproducing the observed amount of dark matter (DM) and DE.

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