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Shear viscosity in neutron star cores

2 Pith papers cite this work. Polarity classification is still indexing.

2 Pith papers citing it
abstract

We calculate the shear viscosity $\eta = \eta_{e\mu}+\eta_{n}$ in a neutron star core composed of nucleons, electrons and muons ($\eta_{e\mu}$ being the electron-muon viscosity, mediated by collisions of electrons and muons with charged particles, and $\eta_{n}$ the neutron viscosity, mediated by neutron-neutron and neutron-proton collisions). Deriving $\eta_{e\mu}$, we take into account the Landau damping in collisions of electrons and muons with charged particles via the exchange of transverse plasmons. It lowers $\eta_{e\mu}$ and leads to the non-standard temperature behavior $\eta_{e\mu}\propto T^{-5/3}$. The viscosity $\eta_{n}$ is calculated taking into account that in-medium effects modify nucleon effective masses in dense matter. Both viscosities, $\eta_{e\mu}$ and $\eta_{n}$, can be important, and both are calculated including the effects of proton superfluidity. They are presented in the form valid for any equation of state of nucleon dense matter. We analyze the density and temperature dependence of $\eta$ for different equations of state in neutron star cores, and compare $\eta$ with the bulk viscosity in the core and with the shear viscosity in the crust.

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2026 1 2025 1

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UNVERDICTED 2

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representative citing papers

Stellar Superradiance and Low-Energy Absorption in Dense Nuclear Media

hep-ph · 2025-12-15 · unverdicted · novelty 6.0

Collective nucleon scattering in neutron-star matter suppresses the effective absorption of ultralight bosons at the long wavelengths relevant for superradiance, weakening the link between stellar cooling bounds and superradiant instability rates.

Modelling Dissipative Dynamics of r-mode Instability in Hybrid Stars

astro-ph.HE · 2026-06-25 · unverdicted · novelty 4.0

Bayesian inference on observational data yields shear viscosity timescale τ_s=(4.99^{+0.49}_{-0.52})×10^8 T^{5/3} s and bulk viscosity timescale for two-layer hybrid stars, giving frequency minima of 451.87 Hz and 517.47 Hz that explain stability of pulsars including XTE J0929-314.

citing papers explorer

Showing 2 of 2 citing papers.

  • Stellar Superradiance and Low-Energy Absorption in Dense Nuclear Media hep-ph · 2025-12-15 · unverdicted · none · ref 84 · internal anchor

    Collective nucleon scattering in neutron-star matter suppresses the effective absorption of ultralight bosons at the long wavelengths relevant for superradiance, weakening the link between stellar cooling bounds and superradiant instability rates.

  • Modelling Dissipative Dynamics of r-mode Instability in Hybrid Stars astro-ph.HE · 2026-06-25 · unverdicted · none · ref 15 · internal anchor

    Bayesian inference on observational data yields shear viscosity timescale τ_s=(4.99^{+0.49}_{-0.52})×10^8 T^{5/3} s and bulk viscosity timescale for two-layer hybrid stars, giving frequency minima of 451.87 Hz and 517.47 Hz that explain stability of pulsars including XTE J0929-314.