SN1987A cooling due to Plasmon-Plasmon scattering in the Randall-Sundrum Model

Abstract

The light braneworld radion, stabilized via the Goldberger-Wise mechanism in the Randall-Sundrum model, can be produced copiously inside the supernova core due to plasmon-plasmon annihilations. The radion, thus produced, subsequently decays to a neutrino-antineutrino pair and takes away the energy released in the SN1987A explosion. Assuming that the supernovae cooling rate for any new physics channel(Raffelt's criterion) (γPγP φ τ τ) ≤ 7.288× 10-27 GeV, we find the lower bound on the radion vacuum expectation value φ 3~TeV for mφ = 30 MeV corresponding to the deformation parameter q=1.17 in the Tsallis statistics formalism. In the scenario with q=1, we find φ = 178 GeV for mφ = 30 MeV.