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29 March 2024
 
  » arxiv » hep-ph/0204079

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The Crystallography of Color Superconductivity
Jeffrey A. Bowers ; Krishna Rajagopal ;
Date 7 Apr 2002
Journal Phys.Rev. D66 (2002) 065002
Subject High Energy Physics - Phenomenology; Superconductivity; Soft Condensed Matter; Statistical Mechanics | hep-ph astro-ph cond-mat.soft cond-mat.stat-mech cond-mat.supr-con nucl-th
AffiliationMIT), Krishna Rajagopal (MIT
AbstractWe develop the Ginzburg-Landau approach to comparing different possible crystal structures for the crystalline color superconducting phase of QCD, the QCD incarnation of the Larkin-Ovchinnikov-Fulde-Ferrell phase. In this phase, quarks of different flavor with differing Fermi momenta form Cooper pairs with nonzero total momentum, yielding a condensate that varies in space like a sum of plane waves. We work at zero temperature, as is relevant for compact star physics. The Ginzburg-Landau approach predicts a strong first-order phase transition (as a function of the chemical potential difference between quarks) and for this reason is not under quantitative control. Nevertheless, by organizing the comparison between different possible arrangements of plane waves (i.e. different crystal structures) it provides considerable qualitative insight into what makes a crystal structure favorable. Together, the qualitative insights and the quantitative, but not controlled, calculations make a compelling case that the favored pairing pattern yields a condensate which is a sum of eight plane waves forming a face-centered cubic structure. They also predict that the phase is quite robust, with gaps comparable in magnitude to the BCS gap that would form if the Fermi momenta were degenerate. These predictions may be tested in ultracold gases made of fermionic atoms. In a QCD context, our results lay the foundation for a calculation of vortex pinning in a crystalline color superconductor, and thus for the analysis of pulsar glitches that may originate within the core of a compact star.
Source arXiv, hep-ph/0204079
Other source [GID 124325] hep-ph/0209168
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