Entropy for color superconductivity in quark matter

Miller D, Tawfik A (2004)
ACTA PHYSICA POLONICA B 35(9): 2165-2174.

Journal Article | Published | English

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We study a known model for color superconductivity with three colors and three massless quark flavors including pairing effects. By using the Hamiltonian in the color-flavor basis we can calculate the quantum entropy. From this calculation we are able to further investigate the phases of the color superconductor, for which we find a rather sharp transition to color superconductivity above a chemical potential around 290 MeV.
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Miller D, Tawfik A. Entropy for color superconductivity in quark matter. ACTA PHYSICA POLONICA B. 2004;35(9):2165-2174.
Miller, D., & Tawfik, A. (2004). Entropy for color superconductivity in quark matter. ACTA PHYSICA POLONICA B, 35(9), 2165-2174.
Miller, D., and Tawfik, A. (2004). Entropy for color superconductivity in quark matter. ACTA PHYSICA POLONICA B 35, 2165-2174.
Miller, D., & Tawfik, A., 2004. Entropy for color superconductivity in quark matter. ACTA PHYSICA POLONICA B, 35(9), p 2165-2174.
D. Miller and A. Tawfik, “Entropy for color superconductivity in quark matter”, ACTA PHYSICA POLONICA B, vol. 35, 2004, pp. 2165-2174.
Miller, D., Tawfik, A.: Entropy for color superconductivity in quark matter. ACTA PHYSICA POLONICA B. 35, 2165-2174 (2004).
Miller, David, and Tawfik, A. “Entropy for color superconductivity in quark matter”. ACTA PHYSICA POLONICA B 35.9 (2004): 2165-2174.
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