Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2009-01-08
Phys.Rev.D79:025011,2009
Physics
High Energy Physics
High Energy Physics - Phenomenology
7 pages, Accepted for publication in Physical Review D
Scientific paper
10.1103/PhysRevD.79.025011
We consider supernova SN1987A to find bounds on parameter of noncommutativity, $\th_{\mu\nu}$. Right handed neutrino in the noncommutative standard model, NCSM, can directly couple to the photon and the Z-gauge boson. Therefore the observed flux of neutrinos from SN1987A can constrain the strength of the new couplings in the NCSM. We obtain two bounds on the NC-parameter, $\Lambda_{NC}=1/{\sqrt |\th|} $, with respect to escaping or trapping of the right handed neutrinos inside the supernova which are $\Lambda_{NC}\gtrsim 3.7 TeV$ or $\Lambda_{NC}\lesssim 1 TeV$, respectively. The excluded region $1 TeV\lesssim\Lambda_{NC}\lesssim 3.7 TeV$ for the NC-parameter is obtained for the first time. In fact $\Lambda_{NC}\lesssim 1 TeV$ is consistent with the existing bounds on $\Lambda_{NC}$ and raises our hopes to find the NC-effects in the LHC or even in the LEP. Meanwhile $\Lambda_{NC}\gtrsim 3.7 TeV$ is more stringent than the other bounds obtained from LEP and LHC considerations. Furthermore, since NC-calculations are perturbative and are correct only up to the energy scale of the NC-system $\lesssim\Lambda_{NC} $, therefore these bounds which are obtained from the energy scale considerably less than the energy scale of LEP and LHC are more reliable.
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