243 research outputs found
Cosmic Strings - Dead Again?
I report on recent numerical simulations of the simplest field theory with
cosmic string solutions, the Abelian Higgs model. We find that random networks
of string quickly converge to a scaling solution in which the network scale
length increases linearly with time. There are very few loops with sizes
less than , and the strings are smooth, showing no signs of ``small scale
structure''. We claim that particle production is the dominant energy-loss
mechanism, not gravitational radiation as previously thought. For strings in
Grand Unified Models, stringent constraints can be placed from cosmic ray
observations on the string tension : we estimate , three
orders of magnitude lower than the constraint from Cosmic Microwave Background
fluctuations.Comment: Late appearance of talk given at Cosmo 97, Ambleside, England, Sept
97, based on hep-ph/9708427 (error concerning UHE cosmic ray bounds
addressed). 4pp, 1eps fig, LaTeX2
Perturbations and moduli space dynamics of tachyon kinks
The dynamic process of unstable D-branes decaying into stable ones with one dimension lower can be described by a tachyon field with a Dirac-Born-Infeld effective action. In this paper we investigate the fluctuation modes of the tachyon field around a two-parameter family of static solutions representing an array of brane-antibrane pairs. Besides a pair of zero modes associated with the parameters of the solution, and instabilities associated with annihilation of the brane-antibrane pairs, we find states corresponding to excitations of the tachyon field around the brane and in the bulk. In the limit that the brane thickness tends to zero, the support of the eigenmodes is limited to the brane, consistent with the idea that propagating tachyon modes drop out of the spectrum as the tachyon field approaches its ground state. The zero modes, and other low-lying excited states, show a fourfold degeneracy in this limit, which can be identified with some of the massless superstring modes in the brane-antibrane system. Finally, we also discuss the slow motion of the solution corresponding to the decay process in the moduli space, finding a trajectory which oscillates periodically between the unstable D-brane and the brane-antibrane pairs of one dimension lower
Semiclassical decay of topological defects
Perturbative estimates suggest that extended topological defects such as cosmic strings emit few particles, but numerical simulations of the fields from which they are constructed suggest the opposite. In this paper we study the decay of the two-dimensional prototype of strings, domain walls in a simple scalar theory, solving the underlying quantum field theory in the Hartree approximation. We conclude that including the quantum effects makes the picture clear: the defects do not directly transform into particles, but there is a nonperturbative channel to microscopic classical structures in the form of propagating waves and persistent localized oscillations, which operates over a huge separation of scales. When quantum effects are included, the microscopic classical structures can decay into particles
Sphalerons with Two Higgs Doublets
We report on work studying the properties of the sphaleron in models of the
electroweak interactions with two Higgs doublets in as model-independent a way
as possible: by exploring the physical parameter space described by the masses
and mixing angles of the Higgs particles. If one of the Higgs particles is
heavy, there can be several sphaleron solutions, distinguished by their
properties under parity and the behaviour of the Higgs field at the origin. In
general, these solutions are not spherically symmetric, although the departure
from spherical symmetry is small.Comment: Talk given at Strong and Electroweak Matter, Marseille, 14-17 June
2000. Uses World Scientific proceedings class ws-p8-50x6-00.cl
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