21 research outputs found
Graded Fock--like representations for a system of algebraically interacting paraparticles
We will present an algebra describing a mixed paraparticle model, known in
the bibliography as "The Relative Parabose Set (\textsc{Rpbs})". Focusing in
the special case of a single parabosonic and a single parafermionic degree of
freedom , we will study a class of Fock--like representations
of this algebra, dependent on a positive integer parameter p (a kind of
generalized parastatistics order). Mathematical properties of the Fock--like
modules will be investigated for all values of p and constructions such as
ladder operators, irreducibility (for the carrier spaces) and Klein group
gradings (for both the carrier spaces and the algebra itself) will be
established.Comment: 4 pages, 1 ref. updated with respect to the journ. versio
Effective Monopoles within Thick Branes
The monopole mass is revealed to be considerably modified in the thick
braneworld paradigm, and depends on the position of the monopole in the brane
as well. Accordingly, the monopole radius continuously increases, leading to an
unacceptable setting that can be circumvented when the brane thickness has an
upper limit. Despite such peculiar behavior, the quantum corrections accrued --
involving the classical monopole solution -- are shown to be still under
control. We analyze the monopole's peculiarities also taking into account the
localization of the gauge fields. Furthermore, some additional analysis in the
thick braneworld context and the similar behavior evinced by the topological
string are investigated.Comment: 7 pages, 1 figur
Paraboson quotients. A braided look at Green ansatz and a generalization
Bosons and Parabosons are described as associative superalgebras, with an
infinite number of odd generators. Bosons are shown to be a quotient
superalgebra of Parabosons, establishing thus an even algebra epimorphism which
is an immediate link between their simple modules. Parabosons are shown to be a
super-Hopf algebra. The super-Hopf algebraic structure of Parabosons, combined
with the projection epimorphism previously stated, provides us with a braided
interpretation of the Green's ansatz device and of the parabosonic Fock-like
representations. This braided interpretation combined with an old problem leads
to the construction of a straightforward generalization of Green's ansatz.Comment: 33 pages, Corrected a few misprints and typos of the journal versio