Generalized dilaton-Maxwell cosmic string and wall solutions

@article{Morris2006GeneralizedDC,
  title={Generalized dilaton-Maxwell cosmic string and wall solutions},
  author={John R. Morris},
  journal={Physics Letters B},
  year={2006},
  volume={641},
  pages={1-5}
}
  • J. Morris
  • Published 15 August 2006
  • Physics
  • Physics Letters B
View PDF on arXiv
11 Citations
Background Citations
6

11 Citations

Short note on the stabilty of a dilatonic wall

A nontopological soliton solution of dilaton–Maxwell theory describes a domain wall-like solution which confines magnetic flux in its core (Gibbons and Wells, Class Quant Grav 11:2499, 1994). Since

Maxwell-dilaton dynamics

The dynamics of Maxwell-dilaton theory in Minkowski spacetime are studied using fully nonlinear, numerical evolutions. This model represents the flat-space sector of Einstein-Maxwell-Dilaton theory

New scenarios for classical and quantum mechanical systems with position-dependent mass

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Light wave propagation through a dilaton-Maxwell domain wall

We consider the propagation of electromagnetic waves through a dilaton-Maxwell domain wall of the type introduced by Gibbons and Wells [G.W. Gibbons and C.G. Wells, Class. Quant. Grav. 11, 2499-2506

Dynamics of domain wall in a black hole bulk.

As we know there is an idea that domain wall can be regarded as a world volume in a high dimension bulk. The moving of domain wall is admitted as the expansion or collapse of world volume. In the

Towards nonlinear axion-dilaton electrodynamics: How can axionic dark matter mimic dilaton-photon interactions?

In the framework of the Einstein-Maxwell-axion-aether theory we establish the model, the Lagrangian of which contains the sin-type generalization of the term describing the axion-photon coupling, and

Dynamic domain wall in charged dilaton black hole spacetimes

In this paper we study the dynamics of $ n-1$ dimensional domain wall universe embedded in a $n$ dimensional charged dilaton black hole bulk with the non-asymptotically flat and non-asymptotically

Real scalar fields on manifolds

A generic theory of a single real scalar field is considered, and a simple method is presented for obtaining a class of solutions to the equation of motion. These solutions are obtained from a

Regular Electric Field in Electromagnetic Coupled to a Scalar Field

In the framework of an electromagnetic field coupled nonminimally with a scalar field in flat spacetime, the existence of a non‐singular electric field is proved for a point electric charge or

New scenarios for classical and quantum mechanical systems with position-dependent mass

  • J. R. Morris
  • Physics
    Quantum Studies: Mathematics and Foundations
  • 2015
An inhomogeneous Kaluza–Klein compactification to four dimensions, followed by a conformal transformation, results in a system with position-dependent mass (PDM). This origin of a PDM is quite

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