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KATRIN Sensitivity to Sterile Neutrino Mass in the Shadow of Lightest
Neutrino Mass
release_e6qsur6lkjfbfaznt26tr72zmu
by
Arman Esmaili,
Orlando L. G. Peres
Released
as a article
.
2012
Abstract
The presence of light sterile neutrinos would strongly modify the energy
spectrum of the Tritium \beta-electrons. We perform an analysis of the KATRIN
experiment's sensitivity by scanning almost all the allowed region of neutrino
mass-squared difference and mixing angles of the 3+1 scenario. We consider the
effect of the unknown absolute mass scale of active neutrinos on the
sensitivity of KATRIN to the sterile neutrino mass. We show that after 3 years
of data-taking, the KATRIN experiment can be sensitive to mixing angles as
small as sin^2 (2\theta_s) ~ 10^-2. Particularly we show that for small mixing
angles, sin^2 (2\theta_s) < 0.1, the KATRIN experiment can gives the strongest
limit on active-sterile mass-squared difference.
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1203.2632v1
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