55,691 research outputs found
Isospin particle on with arbitrary number of supersymmetries
We study the supersymmetric quantum mechanics of an isospin particle in the
background of spherically symmetric Yang-Mills gauge field. We show that on
the number of supersymmetries can be made arbitrarily large for a
specific choice of the spherically symmetric SU(2) gauge field. However, the
symmetry algebra containing the supercharges becomes nonlinear if the number of
fermions is greater than two. We present the exact energy spectra and
eigenfunctions, which can be written as the product of monopole harmonics and a
certain isospin state. We also find that the supersymmetry is spontaneously
broken if the number of supersymmetries is even.Comment: 6 page
Supersymmetric Higgs singlet effects on FCNC observables
Higgs singlet superfields, usually present in extensions of the Minimal
Supersymmetric Standard Model (MSSM) which address the -problem, such as
the Next-to-Minimal Supersymmetric Standard Model (NMSSM) and the Minimal
Nonminimal Supersymmetric Standard Model (mnSSM), can have significant
contributions to -meson flavour-changing neutral current observables for
large values of \tan\beta \gsim 50. Illustrative results are presented
including effects on the and on the rare decay . In
particular, we find that in the NMSSM, the branching ratio for
can be enhanced or even suppressed with respect to the
Standard Model prediction by more than one order of magnitude.Comment: 3 pages, 4 figures, submitted to SUSY08 proceeding
DC Conductivities from Non-Relativistic Scaling Geometries with Momentum Dissipation
We consider a gravitational theory with two Maxwell fields, a dilatonic
scalar and spatially dependent axions. Black brane solutions to this theory are
Lifshitz-like and violate hyperscaling. Working with electrically charged
solutions, we calculate analytically the holographic DC conductivities when
both gauge fields are allowed to fluctuate. We discuss some of the subtleties
associated with relating the horizon to the boundary data, focusing on the role
of Lifshitz asymptotics and the presence of multiple gauge fields. The axionic
scalars lead to momentum dissipation in the dual holographic theory. Finally,
we examine the behavior of the DC conductivities as a function of temperature,
and comment on the cases in which one can obtain a linear resistivity.Comment: 32 pages, 3 figures. Figures and references added. Discussion
modifie
model with Hopf term and fractional spin statistics
We reconsider the model with the Hopf term by using the
Batalin-Fradkin-Tyutin (BFT) scheme, which is an improved version of the Dirac
quantization method. We also perform a semi-classical quantization of the
topological charge Q sector by exploiting the collective coordinates to
explicitly show the fractional spin statistics.Comment: 15 page
Supersymmetric Solutions in Four-Dimensional Off-Shell Curvature-Squared Supergravity
Off-shell formulations of supergravities allow one to add closed-form
higher-derivative super-invariants that are separately supersymmetric to the
usual lower-derivative actions. In this paper we study four-dimensional
off-shell N=1 supergravity where additional super-invariants associated with
the square of the Weyl tensor and the square of the Ricci scalar are included.
We obtain a variety of solutions where the metric describes domain walls,
Lifshitz geometries, and also solutions of a kind known as gyratons. We find
that in some cases the solutions can be supersymmetric for appropriate choices
of the parameters. In some solutions the auxiliary fields may be imaginary. One
may reinterpret these as real solutions in an analytically-continued theory.
Since the supersymmetry transformation rules now require the gravitino to be
complex, the analytically-continued theory has a "fake supersymmetry" rather
than a genuine supersymmetry. Nevertheless, the concept of
pseudo-supersymmetric solutions is a useful one, since the Killing spinor
equations provide first-order equations for the bosonic fields.Comment: 28 page
- …