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Fast neutrino cooling of nuclear pasta in neutron stars: Molecular dynamics simulations

Zidu Lin, Matthew E. Caplan, Charles J. Horowitz, and Cecilia Lunardini
Phys. Rev. C 102, 045801 – Published 6 October 2020
Physics logo See synopsis: Hot “Pasta” Beneath a Star’s Crust
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  • INTRODUCTION
  • METHOD
  • RESULTS
  • CONCLUSION
  • ACKNOWLEDGMENTS
  • APPENDICES
    • References

    Abstract

    The direct Urca process of rapid neutrino emission can occur in nonuniform nuclear pasta phases that are expected in the inner crusts of neutron stars. Here, the periodic potential for a nucleon in nuclear pasta allows momentum conservation to be satisfied for direct Urca reactions. We improve on earlier work by modeling a rich variety of pasta phases (gnocchi, waffle, lasagna, and anti-spaghetti) with large-scale molecular dynamics simulations. We find that the neutrino luminosity due to direct Urca reactions in nuclear pasta can be 3 to 4 orders of magnitude larger than that from the modified Urca process in the NS core. Thus neutrino radiation from pasta could dominate radiation from the core and this could significantly impact the cooling of neutron stars.

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    • Received 18 June 2020
    • Accepted 17 August 2020

    DOI:https://doi.org/10.1103/PhysRevC.102.045801

    ©2020 American Physical Society

    Physics Subject Headings (PhySH)

    1. Research Areas
    Electroweak interactions in nuclear physicsNuclear astrophysicsNuclear matter in neutron starsNuclear reactionsNucleus-neutrino interactions
    Nuclear Physics

    synopsis

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    Hot “Pasta” Beneath a Star’s Crust

    Published 6 October 2020

    Simulations find that pasta phases beneath a neutron star’s crust could dominate the star’s neutrino emission.

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    Authors & Affiliations

    Zidu Lin1, Matthew E. Caplan2, Charles J. Horowitz3, and Cecilia Lunardini1

    • 1Department of Physics, Arizona State University, 450 East Tyler Mall, Tempe, Arizona 85287-1504, USA
    • 2Department of Physics, Illinois Sate University, Normal, Illinois 61790, USA
    • 3Center for the Exploration of Energy and Matter and Department of Physics, Indiana University, Bloomington, Indiana 47405, USA

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    Issue

    Vol. 102, Iss. 4 — October 2020

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