Physics – Nuclear Physics – Nuclear Theory
Scientific paper
2004-05-28
Phys.Rev. D70 (2004) 114029; Erratum-ibid. D71 (2005) 099901
Physics
Nuclear Physics
Nuclear Theory
34 pages, 22 figures, RevTeX4, minor revisions compared to v1
Scientific paper
10.1103/PhysRevD.70.114029
We derive a general effective action for quark matter at nonzero temperature and/or nonzero density. For this purpose, we distinguish irrelevant from relevant quark modes, as well as hard from soft gluon modes by introducing two separate cut-offs in momentum space, one for quarks, $\Lambda_q$, and one for gluons, $\Lambda_g$. We exactly integrate out irrelevant quark modes and hard gluon modes in the functional integral representation of the QCD partition function. Depending on the specific choice for $\Lambda_q$ and $\Lambda_g$, the resulting effective action contains well-known effective actions for hot and/or dense quark matter, for instance the ``Hard Thermal Loop'' or the ``Hard Dense Loop'' action, as well as the high-density effective theory proposed by Hong and others. We then apply our effective action to review the calculation of the color-superconducting gap parameter to subleading order in weak coupling, where the strong coupling constant $g \ll 1$. In this situation, relevant quark modes are those within a layer of thickness $2 \Lambda_q$ around the Fermi surface. The non-perturbative nature of the gap equation invalidates naive attempts to estimate the importance of the various contributions via power counting on the level of the effective action. Nevertheless, once the gap equation has been derived within a particular many-body approximation scheme, the cut-offs $\Lambda_q, \Lambda_g$ provide the means to rigorously power count different contributions to the gap equation. We recover the previous result for the QCD gap parameter for the choice $\Lambda_q \alt g \mu \ll \Lambda_g \alt \mu$, where $\mu$ is the quark chemical potential. We also point out how to improve this result beyond subleading order in weak coupling.
Reuter Philipp T.
Rischke Dirk H.
Wang Qiangguo
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