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• W2022673318 endingPage "1893" @default.
• W2022673318 startingPage "1881" @default.
• W2022673318 abstract "Quark and gluon condensates in nuclear matter are studied. These in-medium condensates may be linked to a wide range of nuclear phenomena and are important inputs to QCD sum-rule calculations at finite density. The Hellmann-Feynman theorem yields a prediction of the quark condensate that is model independent to first order in the nucleon density. This linear density dependence, with slope determined by the nucleon ensuremath{sigma} term, implies that the quark condensate is reduced considerably at nuclear matter saturation density---it is roughly 25--50 % smaller than the vacuum value. The trace anomaly and the Hellmann-Feynman theorem lead to a prediction of the gluon condensate that is model independent to first order in the nucleon density. At nuclear matter saturation density, the gluon condensate is about 5% smaller than the vacuum value. Contributions to the in-medium quark condensate that are of higher order in the nucleon density are estimated with mean-field quark-matter calculations using the Nambu--Jona-Lasinio and Gell-Mann--L'evy models. Treatments of nuclear matter based on hadronic degrees of freedom are also considered, and the uncertainties are discussed." @default.
• W2022673318 created "2016-06-24" @default.
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• W2022673318 date "1992-04-01" @default.
• W2022673318 modified "2023-10-16" @default.
• W2022673318 title "Quark and gluon condensates in nuclear matter" @default.
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• W2022673318 doi "https://doi.org/10.1103/physrevc.45.1881" @default.
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