265 research outputs found
Gravitino Production in the Early Universe and Its Implications to Particle Cosmology
Effects of the unstable gravitino on the big-bang nucleosynthesis (BBN) and
its implications to particle cosmology are discussed. If the gravitino mass is
smaller than \sim 20 TeV, lifetime of the gravitino becomes longer than \sim
1sec and its decay may spoil the success of the standard BBN. In order to avoid
such a problem, upper bound on the reheating temperature after the inflation is
obtained, which may be as low as \sim 10^{5-6} GeV. For a successful
baryogenesis with such low reheating temeprature, a consistent scenario based
on the large cutoff supergravity (LCSUGRA) hypothesis of supersymmetry
breaking, where the gravitino and sfermion become as heavy as \sim O(1-10 TeV),
is proposed. In the LCSUGRA, non-thermal leptogenesis can produce large enough
baryon asymmetry. We also see that, in the LCSUGRA scenario, relic density of
the lightest superparticle becomes consistent with the WMAP value of the dark
matter density in the parameter region required for the successful non-thermal
leptogenesis. In this case, the dark matter density may be reconstructed with
the future e^+e^- linear collider.Comment: Talk given at PASCOS05, Gyeongju, Korea (June 2005). 13 pages, 5
figure
Effects of the right-handed neutrinos on \Delta S = 2 and \Delta B = 2 processes in supersymmetric SU(5) model
We discuss an extra source of CP and flavor violations in supersymmetric
SU(5) grand unified model with the right-handed neutrinos. In such a model, the
right-handed down-type squarks \tilde{d}_R interact with the right-handed
neutrinos above the GUT scale, and the renormalization group effect can
generate sizable off-diagonal elements in the mass matrix of \tilde{d}_R.
Because of new Yukawa phases which exist in the SU(5) model, these off-diagonal
elements have, in general, large CP violating phases. The renormalization group
induced off-diagonal elements affect the K and B decays. In particular, in this
model, supersymmetric contribution to the \epsilon_K parameter can be as large
as the currently measured experimental value, and hence the effect might be
seen as an anomaly in the on-going test of the Cabibbo-Kobayashi-Maskawa
triangle.Comment: 13 pages, 3 figures, typo correcte
Early Decay of Peccei-Quinn Fermion and the IceCube Neutrino Events
IceCube observed high-energy neutrino flux in the energy region from TeV to
PeV. The decay of a massive long-lived particle in the early universe can be
the origin of the IceCube neutrino events, which we call an "early decay
scenario." In this paper, we construct a particle physics model that contains
such a massive long-lived particle based on the Peccei-Quinn model. We
calculate the present neutrino flux, taking account of realistic initial energy
distributions of particles produced by the decay of the massive long-lived
particle. We show that the early decay scenario naturally fits into the
Peccei-Quinn model, and that the neutrino flux observed by IceCube can be
explained in such a framework. We also see that, based on that model, a
consistent cosmological history that explains the abundance of the massive
long-lived particle is realized.Comment: 20 pages, 2 figures; v2: references added; v3: version accepted for
publication in PL
SUSY CP Problem in Gauge Mediation Model
SUSY CP problem in the gauge mediation supersymmetry breaking model is
reconsidered. We pay particular attention to two sources of CP violating phases
whose effects were not seriously studied before; one is the effect of the
breaking of the GUT relation among the gaugino masses due to the field
esponsible for the GUT symmetry breaking, and the other is the supergravity
effect on the supersymmetry breaking parameters, in particular, on the
bi-linear supersymmetry breaking Higgs mass term. We show that both of them can
induce too large electric dipole moments of electron, neutron, and so on, to be
consistent with the experimental bounds.Comment: 15 pages, 3 figures, corrected typos, The version to appear in PL
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