35 research outputs found
Higgs sector and R-parity breaking couplings in models with broken U(1)_B-L gauge symmetry
Four different supersymmetric models based on SU(2)_L X U(1)_R X U(1)_B-L and
SU(2)_L X SU(2)_R X U(1)_B-L gauge symmetry groups are studied. U(1)_B-L
symmetry is broken spontaneously by a vacuum expectation value (VEV) of a
sneutrino field. The right-handed gauge bosons may obtain their mass solely by
sneutrino VEV. The physical charged lepton and neutrino are mixtures of
gauginos, higgsinos and lepton interaction eigenstates. Explicit formulae for
masses and mixings in the physical lepton fields are found. The spontaneous
symmetry breaking mechanism fixes the trilinear R-parity breaking couplings.
Only some special R-parity breaking trilinear couplings are allowed. There is a
potentially large trilinear lepton number breaking coupling - which is unique
to left-right models - that is proportional to the SU(2)_R gauge coupling g_R.
The couplings are parametrized by few mixing angles, making the spontaneous
R-parity breaking a natural ``unification framework'' for R-parity breaking
couplings in SUSYLR models.Comment: 19 pages, no figures, uses REVTeX. To be published in PR
Candidates for Inelastic Dark Matter
Although we have yet to determine whether the DAMA data represents a true
discovery of new physics, among such interpretations inelastic dark matter
(IDM) can match the energy spectrum of DAMA very well while not contradicting
the results of other direct detection searches. In this paper we investigate
the general properties that a viable IDM candidate must have and search for
simple models that realize these properties in natural ways. We begin by
determining the regions of IDM parameter space that are allowed by direct
detection searches including DAMA, paying special attention to larger IDM
masses. We observe that an inelastic dark matter candidate with electroweak
interactions can naturally satisfy observational constraints while
simultaneously yielding the correct thermal relic abundance. We comment on
several other proposed dark matter explanations for the DAMA signal and
demonstrate that one of the proposed alternatives -- elastic scattering of dark
matter off electrons -- is strongly disfavored when the modulated and
unmodulated DAMA spectral data are taken into account. We then outline the
general essential features of IDM models in which inelastic scattering off
nuclei is mediated by the exchange of a massive gauge boson, and construct
natural models in the context of a warped extra dimension and supersymmetry.Comment: 44 pages, 6 figures, added reference
Pharmaceutical metabolite profiling using quadrupole/ion mobility spectrometry/time-of-flight mass spectrometry
10.1002/rcm.3887Rapid Communications in Mass Spectrometry233384-394RCMS