Hadronic axion window and the big-bang nucleosynthesis

Sanghyeon Chang; Kiwoon Choi

Hadronic axion window and the big-bang nucleosynthesis

Sanghyeon Chang, Kiwoon Choi

Abstract

Hadronic axions with the decay constant $f_a\simeq 10^{6}$ GeV may fulfill all astrophysical and laboratory constraints discussed so far. In this paper, we reexamine the possibility of the hadronic axion window while taking into account the uncertainties of some parameters describing low energy axion dynamics. It is found that $f_a$ in the range from $3\times 10^5$ GeV to $3\times 10^6$ can not be excluded by existing arguments. We then examine the implication of this hadronic axion window for the big-bang nucleosynthesis (NS) by evaluating the energy density of thermal axions at the nucleosynthesis epoch. Our analysis yields $(ρ_a/ρ_ν)_{NS}=0.4\sim 0.5$ which exceeds slightly the current best bound $(ρ_a/ρ_ν)_{NS}\leq 0.3$.

Hadronic axion window and the big-bang nucleosynthesis

Abstract

Hadronic axions with the decay constant

GeV may fulfill all astrophysical and laboratory constraints discussed so far. In this paper, we reexamine the possibility of the hadronic axion window while taking into account the uncertainties of some parameters describing low energy axion dynamics. It is found that

in the range from

GeV to

can not be excluded by existing arguments. We then examine the implication of this hadronic axion window for the big-bang nucleosynthesis (NS) by evaluating the energy density of thermal axions at the nucleosynthesis epoch. Our analysis yields

which exceeds slightly the current best bound

Hadronic axion window and the big-bang nucleosynthesis

Abstract

Hadronic axion window and the big-bang nucleosynthesis

Abstract

Paper Structure