Journal
JOURNAL OF HIGH ENERGY PHYSICS
Volume -, Issue 1, Pages -Publisher
SPRINGER
DOI: 10.1007/JHEP01(2021)152
Keywords
Beyond Standard Model; Cosmology of Theories beyond the SM; Effective Field Theories
Categories
Funding
- JSPS KAKENHI [17H02878, 20H01894, JP20K22344, 16H06490, 19H05810]
- World Premier International Research Center Initiative (WPI Initiative), MEXT, Japan
- Leading Initiative for Excellent Young Researchers, MEXT, Japan
- Grants-in-Aid for Scientific Research [20H01894] Funding Source: KAKEN
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The recent excess observed in the electron recoil data of XENON1T can be explained by anomaly-free axion-like particle (ALP) dark matter, which may have played a role in driving inflation in the early universe. The study suggests successful reheating after inflation requires ALP couplings to heavy fermions, followed by an entropy dilution of O(10) achieved through decays of right-handed neutrinos to explain the XENON1T excess.
The recent XENON1T excess in the electron recoil data can be explained by anomaly-free axion-like particle (ALP) dark matter with mass m(phi) = 2.3 +/- 0.2 keV and the decay constant f phi /qe similar or equal to 2x1010Omega phi/Omega DM GeV. Intriguingly, the suggested mass and decay constant are consistent with the relation, f phi similar to 103m phi Mp, predicted in a scenario where the ALP plays the role of the inflaton. This raises a possibility that the ALP dark matter responsible for the XENON1T excess also drove inflation in the very early universe. We study implications of the XENON1T excess for the ALP inflation and thermal history of the universe after inflation. We find that the successful reheating requires the ALP couplings to heavy fermions in the standard model, which results in an instantaneous reheating and subsequent thermalization of the ALPs. Then, an entropy dilution of O(10) is necessary to explain the XENON1T excess, which can be achieved by decays of the right-handed neutrinos.
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