Dark photons from dineutron decays in neutron stars

In this article, we focus on the process in which two neutrons are allowed to transit into two dark photons ($nn \rightarrow VV$) via new Higgs-like scalar bosons. This process violates the baryon number ($\mathcal{B}$) by two units ($|\Delta \mathcal{B}| = 2$). Since neutron stars may contain a large number of neutrons, the effects of the $nn \rightarrow VV$ process can be greatly enhanced inside a neutron star. This process could result in non-trivial effects that are different from previous studies and can be explored through an astrophysical observation. Furthermore, because of this process, a large number of dark photons that may be dark matter candidates can be emitted from the interior of the neutron star. The energy spectrum of the emitted dark photons shows a particular pattern that can be uniquely determined by the mass and radius of the neutron star and can be explored in future experiments. The joint analysis of this process, which combines astrophysics and particle phenomenology, could provide an excellent opportunity for the study of the $\mathcal{B}$-violating effects.