28 research outputs found
Scalar fields: from domain walls to nanotubes and fulerenes
In this work we review some features of topological defects in field theory
models for real scalar fields. We investigate topological defects in models
involving one and two or more real scalar fields. In models involving a single
field we examine two different subclasses of models, which support one or more
topological defects. In models involving two or more real scalar fields, we
explore the presence of defects that live inside topological defects, and
junctions and networks of defects. In the case of junctions of defects we
investigte structures that simulate nanotubes and fulerenes. Our investigations
may also be used to describe nonlinear properties of polymers, Langmuir films
and optical solitons in fibers.Comment: Revtex, 10 pages, 5 figures. Talk presented at XXII Encontro Nacional
de Fisica de Particulas e Campos, Sao Lourenco, MG, Brazil, October 2001; v2,
2 references adde
Scattering of kinks of the sinh-deformed model
We consider the scattering of kinks of the sinh-deformed model,
which is obtained from the well-known model by means of the
deformation procedure. Depending on the initial velocity of the
colliding kinks, different collision scenarios are realized. There is a
critical value of the initial velocity, which separates the regime of
reflection (at ) and that of a complicated interaction (at
) with kinks' capture and escape windows. Besides that, at
below we observe the formation of a bound state of two
oscillons, as well as their escape at some values of .Comment: 23 pages, 12 figures; v2: minor changes to match version published in
EPJ
Traveling wave solutions of nonlinear partial differential equations
We propose a simple algebraic method for generating classes of traveling wave
solutions for a variety of partial differential equations of current interest
in nonlinear science. This procedure applies equally well to equations which
may or may not be integrable. We illustrate the method with two distinct
classes of models, one with solutions including compactons in a class of models
inspired by the Rosenau-Hyman, Rosenau-Pikovsky and Rosenau-Hyman-Staley
equations, and the other with solutions including peakons in a system which
generalizes the Camassa-Holm, Degasperis-Procesi and Dullin-Gotwald-Holm
equations. In both cases, we obtain new classes of solutions not studied
before.Comment: 5 pages, 2 figures; version to be published in Applied Mathematics
Letter
Scalar fields, bent branes, and RG flow
This work deals with braneworld scenarios driven by real scalar fields with
standard dynamics. We show how the first-order formalism which exists in the
case of four dimensional Minkowski space-time can be extended to de Sitter or
anti-de Sitter geometry in the presence of several real scalar fields. We
illustrate the results with some examples, and we take advantage of our
findings to investigate renormalization group flow. We have found symmetric
brane solutions with four-dimensional anti-de Sitter geometry whose
holographically dual field theory exhibits a weakly coupled regime at high
energy.Comment: 22 pages, 7 figure
Twinlike models for kinks and compactons in flat and warped spacetime
This work deals with the presence of twinlike models in scalar field theories. We show how to build distinct scalar field theories having the same extended solution, with the same energy density and linear stability. Here, however, we start from a given but generalized scalar field theory, and we construct the corresponding twin model, which also engenders generalized dynamics. We investigate how the twinlike models arise in both flat and curved spacetimes. In the curved spacetime, we consider a braneworld model with the warp factor controlling the spacetime geometry with a single extra dimension of infinite extent. In particular, we study linear stability in both flat and curved spacetimes, and in the case of curved spacetime-in both the gravity and the scalar field sectors-for the two braneworld models. DOI: 10.1103/PhysRevD.86.12502
Deforming tachyon kinks and tachyon potentials
In this paper we investigate deformation of tachyon potentials and tachyon
kink solutions. We consider the deformation of a DBI type action with gauge and
tachyon fields living on D1-brane and D3-brane world-volume. We deform tachyon
potentials to get other consistent tachyon potentials by using properly a
deformation function depending on the gauge field components. Resolutions of
singular tachyon kinks via deformation and applications of deformed tachyon
potentials to scalar cosmology scenario are discussed.Comment: To appear in JHEP, 19 pages, 5 eps figures, minor changes and one
reference adde
Physical Review D
p. 1-5We introduce a method to obtain deformed defects starting from a given scalar field theory which possesses defect solutions. The procedure allows the construction of infinitely many new theories that support defect solutions, analytically expressed in terms of the defects of the original theory. The method is general, valid for both topological and nontopological defects, and we show how it extends to quantum mechanics and how it works when the scalar field couples to fermions. We illustrate the general procedure with several examples, which support kinklike or lumplike defects