M. Pickles scite author profile

Chiral cosmic strings are produced naturally at the end of inflation in supersymmetric models where the symmetry is broken via a D-term. Consequently in such theories, where both inflation and cosmic strings contribute to the density and CMBR (microwave background) perturbations, it is necessary to understand the evolution of chiral cosmic string networks. We study the dynamics of chiral cosmic strings in Minkowski space and comment on a number of differences with those of Nambu-Goto strings. To do this we follow the work of Carter and Peter who showed that the equations of motion for chiral cosmic strings reduce to a wave equation and two constraints, only one of which is different from the familiar Nambu-Goto constraints. We study chiral string loop solutions consisting of many harmonics and determine their self-intersection probabilities, and comment on the possible cosmological significance of these results.

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Vortices in theories with flat directions

Achúcarro

Davis

Pickles

et al. 2002

Phys. Rev. D

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In theories with flat directions containing vortices, such as supersymmetric QED, there is a vacuum selection effect in the allowed asymptotic configurations. We explain the role played by gauge fields in this effect and give a simple criterion for determining what vacua will be chosen, namely those that minimise the vector mass. We then consider the effect of vacuum selection on stable (BPS) non-topological vortices in a simple Abelian model with N = 2 supersymmetry which occurs as a low energy limit of Calabi-Yau compactifications of type II superstrings. In this case the magnetic flux spreads over an arbitrarily large area. We discuss the implications for cosmology and for superstring inspired magnetic confinement scenarios.

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Fermion zero modes inN=2supervortices

et al. 2003

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We study the fermionic zero modes of BPS semilocal magnetic vortices in Nϭ2 supersymmetric QED with a Fayet-Iliopoulos term and two matter hypermultiplets of opposite charge. There is a one-parameter family of vortices with arbitrarily wide magnetic cores. Contrary to the situation in pure Nielsen-Olesen vortices, new zero modes are found which get their masses from Yukawa couplings to scalar fields that do not wind and are nonzero at the core. We clarify the relation between fermion mass and zero modes. The new zero modes have opposite chiralities and therefore do not affect the net counting ͑left minus right͒ of zero modes coming from index theorems but do manage to evade other index theorems in the literature that count the total number ͑left plus right͒ of zero modes in simpler systems.

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Nielsen-Olesen strings in Supersymmetric models

Pickles

Urrestilla

2003

J. High Energy Phys.

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We investigate the behaviour of a model with two oppositely charged scalar fields. In the Bogomol'nyi limit this may be seen as the scalar sector of N = 1 supersymmetric QED, and it has been shown that cosmic strings form. We examine numerically the model out of the Bogomol'nyi limit, and show that this remains the case. We then add supersymmetry-breaking mass terms to the supersymmetric model, and show that strings still survive. Finally we consider the extension to N=2 supersymmetry with supersymmetry-breaking mass terms, and show that this leads to the formation of stable cosmic strings, unlike in the unbroken case.

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Erosion of polymer-particle composite coatings by liquid water jets

Briscoe¹,

Pickles²,

Julian³

et al. 1997

Wear

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M. Pickles

Dynamics and properties of chiral cosmic strings in Minkowski space

Vortices in theories with flat directions

Fermion zero modes inN=2supervortices

Nielsen-Olesen strings in Supersymmetric models

Erosion of polymer-particle composite coatings by liquid water jets

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