Viscosity, wave damping and shock wave formation in cold hadronic matter

Viscosity, wave damping and shock wave formation in cold hadronic matter (2013)

Authors:
USP affiliated author: NAVARRA, FERNANDO SILVEIRA - IF
School: IF
Subjects: CROMODINÂMICA QUÂNTICA; MATERIA NUCLEAR; ONDAS DE CHOQUE
Language: Inglês
Abstract: We study linear and nonlinear wave propagation in a dense and cold hadron gas and also in a cold quark gluon plasma, taking viscosity into account and using the Navier-Stokes equation. The equation of state of the hadronic phase is derived from the nonlinear Walecka model in the mean ﬁeld approximation. The quark gluon plasma phase is described by the MIT equation of state. We show that in a hadron gas viscosity strongly damps wave propagation and also hinders shock wave formation. This marked diﬀerence between the two phases may have phenomenological consequences and lead to new QGP signatures.
Imprenta:
- Place of publication: São Paulo
- Date published: 2013

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ABNT

FOGAÇA, David Augaitis e NAVARRA, Fernando Silveira e FERREIRA FILHO, L G. Viscosity, wave damping and shock wave formation in cold hadronic matter. . São Paulo: Instituto de Física, Universidade de São Paulo. . Acesso em: 02 jul. 2022. , 2013
APA

Fogaça, D. A., Navarra, F. S., & Ferreira Filho, L. G. (2013). Viscosity, wave damping and shock wave formation in cold hadronic matter. São Paulo: Instituto de Física, Universidade de São Paulo.
NLM

Fogaça DA, Navarra FS, Ferreira Filho LG. Viscosity, wave damping and shock wave formation in cold hadronic matter. 2013 ;[citado 2022 jul. 02 ]
Vancouver

Fogaça DA, Navarra FS, Ferreira Filho LG. Viscosity, wave damping and shock wave formation in cold hadronic matter. 2013 ;[citado 2022 jul. 02 ]