Classical real time correlation functions and quantum corrections at finite temperature

Bödeker D (1997)
Nuclear Physics B 486(1-2): 500-514.

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Zeitschriftenaufsatz | Veröffentlicht | Englisch
Abstract / Bemerkung
We consider quantum corrections to classical real time correlation functions at finite temperature. We derive a semi-classical expansion in powers of h with coefficients including all orders in the coupling constant. We give explicit expressions up to order h(2). We restrict ourselves to a scalar theory. This method, if extended to gauge theories, might be used to compute quantum corrections to the high temperature baryon number violation rate in the Standard Model.
Erscheinungsjahr
Zeitschriftentitel
Nuclear Physics B
Band
486
Zeitschriftennummer
1-2
Seite
500-514
ISSN
PUB-ID

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Bödeker D. Classical real time correlation functions and quantum corrections at finite temperature. Nuclear Physics B. 1997;486(1-2):500-514.
Bödeker, D. (1997). Classical real time correlation functions and quantum corrections at finite temperature. Nuclear Physics B, 486(1-2), 500-514. doi:10.1016/S0550-3213(96)00688-8
Bödeker, D. (1997). Classical real time correlation functions and quantum corrections at finite temperature. Nuclear Physics B 486, 500-514.
Bödeker, D., 1997. Classical real time correlation functions and quantum corrections at finite temperature. Nuclear Physics B, 486(1-2), p 500-514.
D. Bödeker, “Classical real time correlation functions and quantum corrections at finite temperature”, Nuclear Physics B, vol. 486, 1997, pp. 500-514.
Bödeker, D.: Classical real time correlation functions and quantum corrections at finite temperature. Nuclear Physics B. 486, 500-514 (1997).
Bödeker, Dietrich. “Classical real time correlation functions and quantum corrections at finite temperature”. Nuclear Physics B 486.1-2 (1997): 500-514.

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arXiv: hep-th/9609170

Inspire: 423608

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