English

Bulk Viscosity in Dense Nuclear Matter

Nuclear Theory 2024-07-24 v1 High Energy Astrophysical Phenomena

Abstract

In this chapter, I describe bulk viscosity as a general concept, and then focus on bulk viscosity in the dense matter present in compact objects. While this review is focused on bulk viscosity in the conditions present in neutron star mergers, I present a history of bulk viscosity research in dense matter, from its role in damping radial oscillations in neutron stars through its current applications in neutron star mergers. The majority of the chapter consists of calculations of the bulk viscosity from Urca processes in generic neutron-proton-electron (npenpe) matter, and then in dense matter containing muons (npeμnpe\mu matter) as well. I make several approximations in these calculations to keep the focus on the concepts. More precise calculations exist in the literature, to which I refer the reader. One concept I attempt to elucidate is the thermodynamic behavior of a fluid element throughout an oscillation and how that leads to bulk-viscous dissipation. I conclude with a discussion of the recent research into the role of weak interactions and bulk viscosity in neutron star mergers.

Keywords

Cite

@article{arxiv.2407.16157,
  title  = {Bulk Viscosity in Dense Nuclear Matter},
  author = {Steven P. Harris},
  journal= {arXiv preprint arXiv:2407.16157},
  year   = {2024}
}

Comments

Preprint version of chapter 8 in the book "Nuclear Theory in the Age of Multimessenger Astronomy" (CRC Press 2024). The writing was finished in July 2023, so references beyond that date are not included

R2 v1 2026-06-28T17:50:22.278Z