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Matter parity as the origin of scalar Dark Matter

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arxiv 0903.2475 v3 pith:PN6GAQCB submitted 2009-03-16 hep-ph astro-ph.COhep-th

Matter parity as the origin of scalar Dark Matter

classification hep-ph astro-ph.COhep-th
keywords matterdarkscalarparitydecaysnon-supersymmetricabundanceadditionally
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We extend the concept of matter parity $P_M=(-1)^{3(B-L)}$ to non-supersymmetric theories and argue that $P_M$ is the natural explanation to the existence of Dark Matter of the Universe. We show that the non-supersymmetric Dark Matter must be contained in scalar 16 representation(s) of $SO(10),$ thus the unique low energy Dark Matter candidates are $P_M$-odd complex scalar singlet(s) $S$ and inert scalar doublet(s) $H_2.$ We have calculated the thermal relic Dark Matter abundance of the model and shown that its minimal form may be testable at LHC via the SM Higgs boson decays $H_1\to DM DM.$ The PAMELA anomaly can be explained with the decays $DM\to \nu l W$ induced via seesaw-like operator which is additionally suppressed by Planck scale. Because the SM fermions are odd under matter parity too, the DM sector is just our scalar relative.

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