6 research outputs found
Transitions between Vortex Rings and Monopole-Antimonopole Chains
In monopole-antimonopole chain solutions of SU(2) Yang-Mills-Higgs theory the
Higgs field vanishes at m isolated points along the symmetry axis, whereas in
vortex ring solutions the Higgs field vanishes along one or more rings,
centered around the symmetry axis. We investigate how these static axially
symmetric solutions depend on the strength of the Higgs selfcoupling \lambda.
We show, that as the coupling is getting large, new branches of solutions
appear at critical values of \lambda. Exhibiting a different node structure,
these give rise to transitions between vortex rings and monopole-antimonopole
chains.Comment: 14 pages, 18 figures, published in pl
Gravitating Monopole-Antimonopole Systems at Large Scalar Coupling
We discuss static axially symmetric solutions of SU(2)
Einstein-Yang-Mills-Higgs theory for large scalar coupling. These regular
asymptotically flat solutions represent monopole-antimonopole chain and vortex
ring solutions, as well as new configurations, present only for larger values
of the scalar coupling. When gravity is coupled to the Yang-Mills-Higgs system,
branches of gravitating solutions emerge from the flat-space solutions, and
extend up to critical values of the gravitational coupling constant. For small
scalar coupling only two branches of gravitating solutions exist, where the
second branch connects to a generalized Bartnik-McKinnon solution. For large
scalar coupling, however, a plethora of gravitating branches can be present and
indicate the emergence of new flat-space branches.Comment: 29 pages, 13 figure
Gravitating Stationary Dyons and Rotating Vortex Rings
We construct dyons, and electrically charged monopole-antimonopole pairs and
vortex rings in Yang-Mills-Higgs theory coupled to Einstein gravity. The
solutions are stationary, axially symmetric and asymptotically flat. The dyons
with magnetic charge represent non-static solutions with vanishing
angular momentum. The electrically charged monopole-antimonopole pairs and
vortex rings, in contrast, possess vanishing magnetic charge, but finite
angular momentum, equaling times their electric charge.Comment: 2 references adde
Gravitating Dyons with Large Electric Charge
We consider non-Abelian dyons in Einstein-Yang-Mills-Higgs theory. The dyons
are spherically symmetric with unit magnetic charge. For large values of the
electric charge the dyons approach limiting solutions, related to the Penney
solutions of Einstein-Maxwell-scalar theory.Comment: 10 pages, 4 figure
Stationary Dyonic Regular and Black Hole Solutions
We consider globally regular and black hole solutions in SU(2)
Einstein-Yang-Mills-Higgs theory, coupled to a dilaton field. The basic
solutions represent magnetic monopoles, monopole-antimonopole systems or black
holes with monopole or dipole hair. When the globally regular solutions carry
additionally electric charge, an angular momentum density results, except in
the simplest spherically symmetric case. We evaluate the global charges of the
solutions and their effective action, and analyze their dependence on the
gravitational coupling strength. We show, that in the presence of a dilaton
field, the black hole solutions satisfy a generalized Smarr type mass formula.Comment: 23 pages, 4 figure