Upper critical field and (non)-superconductivity of magnetars
TLDR
In this article, the authors construct equilibrium models of compact stars using a realistic equation of state and obtain the density range occupied by the proton superconductor in strong B-fields.Abstract:
We construct equilibrium models of compact stars using a realistic equation of state and obtain the density range occupied by the proton superconductor in strong B-fields. We do so by combining the density profiles of our models with microscopic calculations of proton pairing gaps and the critical unpairing field H
c2 above which the proton type-II superconductivity is destroyed. We find that magnetars with interior homogeneous field within the range 0.1 ≤ B
16 ≤ 2, where B
16 = B/1016 G, are partially superconducting, whereas those with B
16 > 2 are void of superconductivity. We briefly discuss the neutrino emissivity and superfluid dynamics of magnetars in the light of their (non)-superconductivity.read more
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Axion star collisions with neutron stars and fast radio bursts
TL;DR: In this article, the authors argue that collisions of dilute axion stars with neutron stars, of the type known as "magnetars," may be the origin of most of the observed fast radio bursts.
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Equation of State of Strongly Magnetized Matter with Hyperons and Δ-Resonances
TL;DR: In this article, a new equation of state for the baryonic matter under an intense magnetic field was constructed within the framework of covariant density functional theory, where the composition of matter includes hyperons as well as Δ-resonances.
Journal ArticleDOI
Equation of state of strongly magnetized matter with hyperons and $\Delta$-resonances
TL;DR: In this article, a new equation of state for the baryonic matter under an intense magnetic field was constructed within the framework of covariant density functional theory, which includes hyperons as well as $ \Delta$-resonances.
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Rapid rotational crust-core relaxation in magnetars
TL;DR: In this article, it was shown that the rapid crust-core coupling is incompatible with oscillation models of magnetars that completely decouple the core superfluid from the crust and that magnetar precession is damped by the coupling of normal fluids to the superfluid core and, if observed, needs to be forced or continuously excited by seismic activity.
References
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Equation of state of hypernuclear matter: Impact of hyperon–scalar-meson couplings
Giuseppe Colucci,Armen Sedrakian +1 more
TL;DR: In this article, the authors studied the equation of state and composition of hypernuclear matter within a relativistic density functional theory with density-dependent couplings, allowing for mixing and breaking of SU(6) symmetry, while keeping the nucleonic coupling constants fixed.
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The impact of magnetic field on the thermal evolution of neutron stars
TL;DR: In this paper, the impact of strong magnetic fields B > 1013 G on the thermal evolution of neutron stars is investigated, including crustal heating by magnetic field decay, and 2D cooling simulations with anisotropic thermal conductivity considering all relevant neutrino emission processes for realistic neutron stars.
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Electrical Conductivity of Neutron Star Matter
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Superfluid Core Rotation in Pulsars. I. Vortex Cluster Dynamics
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Vector current conservation and neutrino emission from singlet-paired baryons in neutron stars
L.B. Leinson,Armando Pérez +1 more
TL;DR: In this paper, the neutrino emission caused by singlet Cooper pairing of baryons in neutron stars is recalculated by accurately taking into account for conservation of the vector weak currents.
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