Weinberg-type sum rules at zero and finite temperature

J. I. Kapusta; E. V. Shuryak

doi:10.1103/PhysRevD.49.4694

Weinberg-type sum rules at zero and finite temperature

J. I. Kapusta, E. V. Shuryak

Physics and Astronomy (Twin Cities)

Research output: Contribution to journal › Article › peer-review

111 Scopus citations

Abstract

We consider sum rules of the Weinberg type at zero and nonzero temperatures. On the basis of the operator product expansion at zero temperature we obtain a new sum rule which involves the average of a four-quark operator on one side and experimentally measured spectral densities on the other. We further generalize the sum rules to finite temperature. These involve transverse and longitudinal spectral densities at each value of the momentum. Various scenarios for the relation between chiral symmetry restoration and these finite temperature sum rules are discussed.

Original language	English (US)
Pages (from-to)	4694-4704
Number of pages	11
Journal	Physical Review D
Volume	49
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevD.49.4694
State	Published - 1994

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10.1103/PhysRevD.49.4694

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abstract = "We consider sum rules of the Weinberg type at zero and nonzero temperatures. On the basis of the operator product expansion at zero temperature we obtain a new sum rule which involves the average of a four-quark operator on one side and experimentally measured spectral densities on the other. We further generalize the sum rules to finite temperature. These involve transverse and longitudinal spectral densities at each value of the momentum. Various scenarios for the relation between chiral symmetry restoration and these finite temperature sum rules are discussed.",

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AB - We consider sum rules of the Weinberg type at zero and nonzero temperatures. On the basis of the operator product expansion at zero temperature we obtain a new sum rule which involves the average of a four-quark operator on one side and experimentally measured spectral densities on the other. We further generalize the sum rules to finite temperature. These involve transverse and longitudinal spectral densities at each value of the momentum. Various scenarios for the relation between chiral symmetry restoration and these finite temperature sum rules are discussed.

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Weinberg-type sum rules at zero and finite temperature

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