Supernovae and photon frequency shift induced by the Standard-Model Extension

Abstract

We revisit for 714 SNeIa the discrepancy between the red-shift associated to the distance modulus μ and the spectroscopic red-shift. Previous work has shown that the total red-shift z might be a combination of the expansion red-shift z C and of a static, blue or red shift z LSV(r), r being the comoving distance. The latter is due to the energy non-conservation of the photon propagating through Electro-Magnetic (EM) background fields (host galaxy, intergalactic and Milky Way), under Lorentz(-Poincar\'e) Symmetry Violation (LSV), associated to the Standard-Model Extension (SME). The non-conservation stems from the vacuum expectation value of the vector and tensor LSV fields. For zero radiation rad and curvature k densities, and matter density m = 0.28, the SN1a positions in the (μ, z) plan are recovered according to the different strengths, orientations, alignments and space-time dependencies of the EM fields and LSV components. The LSV vacuum energy may be thus tantamount to 0.7, but unrelated to an accelerated expansion. We present models with red or blue-shifts z LSV, below 10\% of z. The frequency variation is below 10-19 / per m.