Running coupling constant from lattice data and bulk viscosity of strange quark matter

Citations Over TimeTop 18% of 2005 papers

Abstract

We study the bulk viscosity of strange quark matter in a quasiparticle model at finite chemical potential by extrapolating the previous quasiparticle model of finite temperature lattice quantum chromodynamics. The more proper bulk viscosity coefficient can be given in this model where chemical potential \ensuremath{\mu} and coupling constant $g$ are interdependent. We also apply our result to determine the critical rotation of strange stars by r-mode instability window. Our model is compatible to the millisecond pulsar data for a wide range of mass and radius of the stars.

Related Papers

• → Cold quark matter(2010)481 cited
• → On the conversion of neutron stars into strange stars(1987)215 cited
• → Exact solutions of a model for strange stars with interacting quarks(2019)20 cited
• → The structure of strange quark matter and neutron stars(2003)9 cited
• Strange Quark Matter and Strange Stars in the Nambu-Jona-Lasinio Model(2012)