115 research outputs found
Gravity effects on thick brane formation from scalar field dynamics
The formation of a thick brane in five-dimen\-sional space-time is
investigated when warp geometries of type are induced by scalar matter
dynamics and triggered by a thin-brane defect. The scalar matter is taken to
consist of two fields with symmetric self interaction and with manifest
symmetry breaking by terms quadratic in fields. One of them serves as a
thick brane formation mode around a kink background and another one is of a
Higgs-field type which may develop a classical background as well. Scalar
matter interacts with gravity in the minimal form and gravity effects on
(quasi)localized scalar fluctuations are calculated with usage of gauge
invariant variables suitable for perturbation expansion. The calculations are
performed in the vicinity of the critical point of spontaneous breaking of the
combined parity symmetry where a non-trivial v.e.v. of the Higgs-type scalar
field is generated. The nonperturbative discontinuous gravitational effects in
the mass spectrum of light localized scalar states are studied in the presence
of a thin-brane defect. The thin brane with negative tension happens to be the
most curious case when the singular barriers form a potential well with two
infinitely tall walls and the discrete spectrum of localized states arises
completely isolated from the bulk.Comment: 15 pages, minor corrections, two-column EPJ-C styl
Hidden Symmetry from Supersymmetry in One-Dimensional Quantum Mechanics
When several inequivalent supercharges form a closed superalgebra in Quantum
Mechanics it entails the appearance of hidden symmetries of a
Super-Hamiltonian. We examine this problem in one-dimensional QM for the case
of periodic potentials and potentials with finite number of bound states. After
the survey of the results existing in the subject the algebraic and analytic
properties of hidden-symmetry differential operators are rigorously elaborated
in the Theorems and illuminated by several examples
An effective QCD Lagrangian in the presence of an axial chemical potential
We consider the low energy realization of QCD in terms of mesons when an
axial chemical potential is present; a situation that may be relevant in heavy
ion collisions. We shall demonstrate that the presence of an axial charge has
profound consequences on meson physics. The most notorious effect is the
appearance of an explicit source of parity breaking. The eigenstates of strong
interactions do not have a definite parity and interactions that would
otherwise be forbidden compete with the familiar ones. In this work we focus on
scalars and pseudoscalars that are described by a generalized linear sigma
model. We comment briefly on the screening role of axial vectors in formation
of effective axial charge and on the possible experimental relevance of our
results, whose consequences may have been already seen at RHIC.Comment: 13 pages, 9 figure
Chemical potentials and parity breaking: the Nambu-Jona-Lasinio model
We consider the "two flavour" Nambu--Jona-Lasinio model in the presence of a
vector and an axial external chemical potentials and study the phase structure
of the model at zero temperature. The Nambu--Jona-Lasinio model is often used
as a toy replica of QCD and it is therefore interesting to explore the
consequences of adding external vector and axial chemical potentials in this
model, mostly motivated by claims that such external drivers could trigger a
phase where parity could be broken in QCD. We are also motivated by some
lattice analysis that attempt to understand the nature of the so-called Aoki
phase using this simplified model. Analogies and differences with the expected
behaviour in QCD are discussed and the limitations of the model are pointed
out.Comment: 16 pages, 13 figure
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