Two Component Dark Matters in S4 x Z2 Flavor Symmetric Extra U(1) Model

Abstract

We study cosmic-ray anomaly observed by PAMELA based on E6 inspired extra U(1) model with S4 x Z2 flavor symmetry. In our model, the lightest flavon has very long lifetime of O(1018)) second which is longer than the age of the universe, but not long enough to explain the PAMELA result ~ O(1026) sec. Such a situation could be avoidable by considering that the flavon is not the dominant component of dark matters and the dominant one is the lightest neutralino. With appropriate parameter set, density parameter of dark matter and over-abundance of positron flux in cosmic-ray are realized at the same time. There is interesting correlation between spectrum of positron flux and VMNS. No excess of anti-proton in cosmic-ray suggests that sfermions are heavier than 4 TeV and the masses of the light Higgs bosons are degenerated.