2005
DOI: 10.1103/physrevd.71.034004
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New phases in color-flavor-locked quark matter

Abstract: We consider O(αs) corrections to the squared masses of the pseudo-Goldstone excitations about the ground state of dense quark matter. We show that these contributions tend to destabilize the vacuum, leading to a surprisingly complex phase structure for quark matter as a function of quark mass, even for small αs. In particular we find two new phases of CFL quark matter possibly relevant for the real world, for whichθQCD = π/2. 03.75.Fi,26.60.+c, The dependence of the QCD vacuum on the masses of the light quarks… Show more

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Cited by 45 publications
(70 citation statements)
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“…In particular, the electron contribution to the thermodynamic potential in the CFL phase favours the K 0 condensation (the CFL-K 0 phase) [200,201,202,203]. The phase structure with the CFL-K 0 state and its variants have been also investigated in the NJL-type model [204,205].…”
Section: Collective Excitationsmentioning
confidence: 99%
“…In particular, the electron contribution to the thermodynamic potential in the CFL phase favours the K 0 condensation (the CFL-K 0 phase) [200,201,202,203]. The phase structure with the CFL-K 0 state and its variants have been also investigated in the NJL-type model [204,205].…”
Section: Collective Excitationsmentioning
confidence: 99%
“…Also we will neglect meson mass terms generated by quark masses. Quark mass terms connect particles and antiparticles and the resulting meson mass terms are generally suppressed by powers of ∆/µ ∝ Exp(−const/g s ) and/or α s [13,14,20].…”
Section: Free Energy Calculationmentioning
confidence: 99%
“…In this case, the CFL phase is expected to undergo a phase transition to a phase with a meson (e.g., kaon or/and eta) condensate [57,58,59]. In the low-energy action of the corresponding phase, additional Nambu-Goldstone bosons with very unusual properties can appear [60].…”
Section: Low-energy Effective Actionmentioning
confidence: 99%