Sound Attenuation in Quark Matter Due to Pairing Fluctuations
Boris Kerbikov
TL;DR
This paper investigates how pairing fluctuations in dense quark matter cause significant sound attenuation, illustrating a phenomenon related to slow relaxation processes described by Mandelshtam-Leontovich theory.
Contribution
It introduces the effect of diquark field fluctuations on sound attenuation in quark matter, linking it to established slow relaxation theories.
Findings
Strong sound absorption due to pairing fluctuations
Connection to Mandelshtam-Leontovich slow relaxation theory
Potential implications for quark matter properties
Abstract
The sound wave in dense quark matter is subject to strong absorption due to diquark field fluctuations above T critical. The result is another facet of Mandelshtam-Leontovich slow relaxation time theory.
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