182 research outputs found
Notes on Yang-Mills--Higgs monopoles and dyons on R^D, and Chern-Simons--Higgs solitons on \R^{D-2}: Dimensional reduction of Chern-Pontryagin densities
We review work on construction of Monopoles in higher dimensions. These are
solutions to a particular class of models descending from Yang--Mills systems
on even dimensional bulk, with Spheres as codimensions. The topological lower
bounds on the Yang-Mills action translate to Bogomol'nyi lower bounds on the
residual Yang-Mills-Higgs systems. Mostly, consideration is restricted to 8
dimensional bulk systems, but extension to the arbitrary case follows
systematically. After presenting the monopoles, the corresponding dyons are
also constructed. Finally, new Chern-Simons densities expressed in terms of
Yang-Mills and Higgs fields are presented. These are defined in all dimensions,
including in even dimensional spacetimes. They are constructed by subjecting
the dimensionally reduced Chern-Pontryagin densites to further descent by two
steps.Comment: 50 pages, no figures. Revised and extended final versio
Static BPS 'monopoles' in all even spacetime dimensions
Two families of SO(2n) Higgs models in dimensional spacetime are
presented. One family arises from the {\it dimensional reduction} of higher
dimensional Yang-Mills systems while the construction of the other one is {\it
ad hoc}, the member of each family coinciding with the usual SU(2)
Yang-Mills--Higgs system without Higgs potential. All models support BPS
'monopole' solutions. The 'dyons' of the {\it dimensionally descended} models
are also BPS, while the electrically charged solutions of the {\it ad hoc}
models are not BPS.Comment: 15 pages, 3 figure
Instantonic dyons of Yang-Mills--Chern-Simons models in d=2n+1 dimensions, n>2
We investigate finite energy solutions of Yang-Mills--Chern-Simons systems in
odd spacetime dimensions, d=2n+1, with n>2. This can be carried out
systematically for all n, but the cases n=3,4 corresponding to a 7,8
dimensional spacetime are treated concretely. These are static and spherically
symmetric configurations, defined in a flat Minkowski background. The value of
the electric charge is fixed by the Chern-Simons coupling constant.Comment: 15 pages, 4 figure
Higgs- and Skyrme-Chern-Simons densities in all dimensions
Two types of new Chern-Simons (CS) densities, both defined in all odd and
even dimensions, are proposed. These new CS densities feature a scalar field
interacting with a scalar. In one case this is a Higgs scalar while in the
other it is a Skyrme scalar. The motivation is to study the effects of adding
these new CS terms to a Lagrangian which supports static soliton solutions
prior to their introduction.Comment: 20 pages, no figure
Towards a Coulomb gas of instantons in the SO(4)xU(1) Higgs model on R_4
The Higgs model on is extended by a term so
that the action receives a nonvanishing contribution from the interactions of
2-instantons and 3-instantons, and can be expressed as the inverse of the
Laplacian on in terms of the mutual distances of the instantons. The
one-instanton solutions of both the basic and the extended models have been
studied in detail numerically.Comment: 29 pages LaTeX, 4 Figures available from authors on reques
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