Meson Supercurrent State in High Density QCD
Abstract
We study the effect of a non-zero strange quark mass on the color-flavor-locked (CFL) phase of high density quark matter. We have previously shown that for a strange quark mass ms mu1/32/3 the CFL state becomes unstable toward the formation of a neutral kaon condensate. Recently, several authors discovered that for ms (2 pF)1/2 the CFL state contains gapless fermions, and that the gapless modes lead to an instability in current-current correlation functions. Using an effective theory of the CFL state we demonstrate that this instability is resolved by the formation of an inhomogeneous meson condensate, analogous to Migdal's p-wave pion condensate. This state has a non-zero meson current which is canceled by a backflow of gapless fermions.
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