Evolution of a non-Abelian cosmic string network

McGraw, Patrick N.

doi:10.1103/physrevd.57.3317

Cited by 50 publications

(70 citation statements)

References 43 publications

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“…If so, its density would come to dominate at the tensions that we are considering. The F-D networks have not yet been simulated, but simulations of comparable networks suggest that they scale, possibly with an enhanced density of strings [97,98,99]. From the discussion above, it follows that one will not directly read off the spectrum (16) from the observations, but there should eventually be enough information to distinguish F-D string networks from other types.…”

Section: Networkmentioning

confidence: 99%

Introduction to Cosmic F- and D-Strings

Polchinski

2005

NATO Science Series II: Mathematics, Physics and Chemistry

114

183

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In these lectures I discuss the possibility that superstrings of cosmic length might exist and be observable. I first review the original idea of cosmic strings arising as gauge theory solitons, and discuss in particular their network properties and the observational bounds that rule out cosmic strings as the principal origin of structure in our universe. I then consider cosmic superstrings, including the 'fundamental' F-strings and also D-strings and strings arising from wrapped branes. I discuss the conditions under which these will exist and be observable, and ways in which different kinds of string might be distinguished. We will see that each of these issues is model-dependent, but that some of the simplest models of inflation in string theory do lead to cosmic superstrings. Moreover, these could be the first objects seen in gravitational wave astronomy, and might have distinctive network properties.

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Section: Networkmentioning

confidence: 99%

Introduction to Cosmic F- and D-Strings

Polchinski

2005

NATO Science Series II: Mathematics, Physics and Chemistry

114

183

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“…One possible realization of the elastic fluid dark energy models is a frustrated network of non-Abelian cosmic strings [17,18,50,51] or domain walls [20,52]. In this section we discuss some basic aspects of these scenarios and make attempts to link them with the earlier sections.…”

Section: Possible Realizations Of Elastic Dark Energy Modelsmentioning

confidence: 99%

“…The metric perturbation is parameterized by h ij = 2H ij , where H ij is decomposed according to (51). In order to compare the elastic fluid with other fluid based models, we use the parameterization of the the energy-momentum tensor used in ref.…”

Section: E Einstein Equations and Conserved Energy-momentummentioning

confidence: 99%

Cosmological perturbations in elastic dark energy models

Battye

Moss

2007

Phys. Rev. D

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We discuss the general framework for a perfect continuum medium in cosmology and show that an interesting generalization of the fluids normally used is for the medium to have rigidity and, hence, be analogous to an elastic solid. Such models can provide perfect, adiabatic fluids which are stable even when the pressure is negative, if the rigidity is sufficiently large, making them natural candidates to describe the dark energy. In fact, if the medium is adiabatic and isotropic, they provide the most general description of linearized perturbations. We derive the equations of motion and wave propagation speeds in the isotropic case. We point out that anisotropic models can also be incorporated within the same formalism and that they are classified by the standard Bravais Lattices. We identify the adiabatic and isocurvature modes allowed in both the scalar and vector sectors and discuss the predictions they make for CMB and matter power spectra. We comment on the relationship between these models and other fluid-based approaches to dark energy, and discuss a possible microphysical manifestation of this class of models as a continuum description of defect-dominated scenarios.

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“…This leads to the so-called entangled networks [22,23,24]. Again the naive expectation is that they might be conformally frozen, leading to the so-called frustrated networks.…”

Section: Entangled Networkmentioning

confidence: 99%

“…The scenario of standard intercommuting strings dominating the universe was also discussed [21], but it can never be realized for realistic networks. On the other hand, relatively small numerical simulations [22,23,24] report that linear scaling is reached except in special circumstances.…”

Section: Introductionmentioning

confidence: 99%

Scaling laws for nonintercommuting cosmic string networks

Martins

2004

Phys. Rev. D

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We study the evolution of non-interacting and entangled cosmic string networks in the context of the velocity-dependent one-scale model. Such networks may be formed in several contexts, including brane inflation. We show that the frozen network solution L ∝ a, although generic, is only a transient one, and that the asymptotic solution is still L ∝ t as in the case of ordinary (intercommuting) strings, although in the present context the universe will usually be string-dominated. Thus the behaviour of two strings when they cross does not seem to affect their scaling laws, but only their densities relative to the background.

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Evolution of a non-Abelian cosmic string network

Cited by 50 publications

References 43 publications

Introduction to Cosmic F- and D-Strings

Introduction to Cosmic F- and D-Strings

Cosmological perturbations in elastic dark energy models

Scaling laws for nonintercommuting cosmic string networks

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