8–12 Jul 2024
Facultat de Biologia, Universitat de Barcelona
Europe/Madrid timezone

Damping of density oscillations from bulk viscosity in quark matter

10 Jul 2024, 11:00
30m
Aula Magna (Facultat de Biologia, Universitat de Barcelona)

Aula Magna

Facultat de Biologia, Universitat de Barcelona

Avinguda Diagonal, 643 08028 - Barcelona, Spain
Contributed e-poster Poster session

Speaker

José Luis Hernández (Institut de Ciències de l'Espai, CSIC)

Description

In the coalescence of binary neutron stars nonequilibrium processes unfold. The dynamics of these processes is influenced by the material’s transport coefficients. A comprehensive understanding of the transport coefficients of ultradense matter becomes imperative, as these are determined by the microscopic composition and the dominant interactions of its constituents. To this end we compute the bulk viscosity and the associated damping time of baryon density oscillations in unpaired three-flavor quark matter considering both nonleptonic and semileptonic electroweak processes. Using two different equations of state, namely, the MIT bag model and perturbative QCD, including the leading order corrections in the strong coupling constant. We analyze the dependence of our results on the density, temperature and value of strange quark mass in each case. Our results suggest that bulk viscous damping might be relevant in the postmerger phase after the collision of two neutron stars if deconfined matter is achieved in the process.

session H. Equation of State and Neutron Stars

Primary author

José Luis Hernández (Institut de Ciències de l'Espai, CSIC)

Co-authors

Cristina Manuel Laura Tolos (ICE (CSIC, Barcelona))

Presentation materials