Equation of state of zero-temperature quark matter
Vuorinen A (2009)
Nuclear Physics A 820(1-4): 183c-186c.
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We outline the key elements of a recent calculation aimed at determining the equation of state of deconfined (but unpaired) quark matter at zero temperature and high density, using finite quark masses. The computation is performed in perturbation theory up to three loops, and necessitates the development and application of some novel computational Cools. In this talk, we introduce the basic features of these new techniques and review the main source of motivation for considering finite mass effects in perturbation theory.
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Vuorinen A. Equation of state of zero-temperature quark matter. Nuclear Physics A. 2009;820(1-4):183c-186c.
Vuorinen, A. (2009). Equation of state of zero-temperature quark matter. Nuclear Physics A, 820(1-4), 183c-186c. doi:10.1016/j.nuclphysa.2009.01.045
Vuorinen, A. (2009). Equation of state of zero-temperature quark matter. Nuclear Physics A 820, 183c-186c.
Vuorinen, A., 2009. Equation of state of zero-temperature quark matter. Nuclear Physics A, 820(1-4), p 183c-186c.
A. Vuorinen, “Equation of state of zero-temperature quark matter”, Nuclear Physics A, vol. 820, 2009, pp. 183c-186c.
Vuorinen, A.: Equation of state of zero-temperature quark matter. Nuclear Physics A. 820, 183c-186c (2009).
Vuorinen, Aleksi. “Equation of state of zero-temperature quark matter”. Nuclear Physics A 820.1-4 (2009): 183c-186c.
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