Finite temperature QCD coupling constant - imaginary versus real time framework

Baier R, Pire B, Schiff D (1991)
Zeitschrift für Physik C: Particles and fields 51(4): 581-585.

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The correspondence between the imaginary time and real time thermal running coupling constant is discussed. The temperature dependence is derived in pure QCD at one-loop order in a generalized momentum subtraction (MOM) renormalization scheme.
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Baier R, Pire B, Schiff D. Finite temperature QCD coupling constant - imaginary versus real time framework. Zeitschrift für Physik C: Particles and fields. 1991;51(4):581-585.
Baier, R., Pire, B., & Schiff, D. (1991). Finite temperature QCD coupling constant - imaginary versus real time framework. Zeitschrift für Physik C: Particles and fields, 51(4), 581-585.
Baier, R., Pire, B., and Schiff, D. (1991). Finite temperature QCD coupling constant - imaginary versus real time framework. Zeitschrift für Physik C: Particles and fields 51, 581-585.
Baier, R., Pire, B., & Schiff, D., 1991. Finite temperature QCD coupling constant - imaginary versus real time framework. Zeitschrift für Physik C: Particles and fields, 51(4), p 581-585.
R. Baier, B. Pire, and D. Schiff, “Finite temperature QCD coupling constant - imaginary versus real time framework”, Zeitschrift für Physik C: Particles and fields, vol. 51, 1991, pp. 581-585.
Baier, R., Pire, B., Schiff, D.: Finite temperature QCD coupling constant - imaginary versus real time framework. Zeitschrift für Physik C: Particles and fields. 51, 581-585 (1991).
Baier, Rudolf, Pire, B., and Schiff, D. “Finite temperature QCD coupling constant - imaginary versus real time framework”. Zeitschrift für Physik C: Particles and fields 51.4 (1991): 581-585.
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