1,683 research outputs found
Inflation induced by Gravitino Condensation in Supergravity
We discuss the emergence of an inflationary phase in supergravity with the
super-Higgs effect due to dynamical spontaneous breaking of supersymmetry, in
which the role of the inflaton is played by the gravitino condensate. Realistic
models compatible with the Planck satellite CMB data are found in conformal
supergravity scenarios with dynamical gravitino masses that are small compared
to the Planck mass, as could be induced by a non-trivial vacuum expectation
value of the dilaton superfield of appropriate magnitude.Comment: 13 pages, Revtex, 11 pdf figures, references added on role of
gravitino torsion condensates in parallelising space-time manifolds,
hierarchy of scales involved made explicit, no effects on conclusions.
Version to appear in Physical Review
Wess-Zumino Inflation in Light of Planck
We discuss cosmological inflation in the minimal Wess-Zumino model with a
single massive chiral supermultiplet. With suitable parameters and assuming a
plausible initial condition at the start of the inflationary epoch, the model
can yield scalar perturbations in the Cosmic Microwave Background (CMB) of the
correct strength with a spectral index n_s ~ 0.96 and a tensor-to-scalar
perturbation ratio r < 0.1, consistent with the Planck CMB data. We also
discuss the possibility of topological inflation within the Wess-Zumino model,
and the possibility of combining it with a seesaw model for neutrino masses.
This would violate R-parity, but at such a low rate that the lightest
supersymmetric particle would have a lifetime long enough to constitute the
astrophysical cold dark matter.Comment: 11 pages, 3 figure
Light-by-Light Scattering Constraint on Born-Infeld Theory
The recent measurement by ATLAS of light-by-light scattering in LHC Pb-Pb
collisions is the first direct evidence for this basic process. We find that it
requires the mass scale of a nonlinear Born-Infeld extension of QED to be
~GeV, a much stronger constraint than those derived previously. In
the case of a Born-Infeld extension of the Standard Model in which the
U(1) hypercharge gauge symmetry is realized nonlinearly, the limit on
the corresponding mass scale is ~GeV, which in turn imposes a lower
limit of ~TeV on the magnetic monopole mass in such a U(1) Born-Infeld theory.Comment: 11 pages, 4 figures, version accepted for publication in PR
The Price of an Electroweak Monopole
In a recent paper, Cho, Kim and Yoon (CKY) have proposed a version of the
SU(2) U(1) Standard Model with finite-energy monopole and dyon
solutions. The CKY model postulates that the effective U(1) gauge coupling very rapidly as the Englert-Brout-Higgs vacuum expectation value , but in a way that is incompatible with LHC measurements of the Higgs boson
decay rate. We construct generalizations of the CKY model
that are compatible with the constraint, and calculate
the corresponding values of the monopole and dyon masses. We find that the
monopole mass could be TeV, so that it could be pair-produced at the
LHC and accessible to the MoEDAL experiment.Comment: 15 pages; Two clarifying footnotes (3 and 4) added. No effect on
conclusion
Environmental CPT Violation in an Expanding Universe in String Theory
We consider a model of an expanding Universe in string theory that yields
`environmental' CPT violation for fermions, in the sense of different
dispersion relations for fermions and antifermions. These are induced by a
cosmological background with constant torsion provided by the Kalb-Ramond
antisymmetric tensor field (axion) of the string gravitational multiplet. This
effect induces different densities of neutrinos and antineutrinos while in
chemical equilibrium, offering new scenarios for leptogenesis and baryogenesis
even in the absence of CP violation.Comment: 8 pages, some clarifying remarks and references added, correction of
typos in the text below eq. (26), no effects on conclusion
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