Prospects of Detecting Baryon and Quark Superfluidity from Cooling Neutron Stars

Dany Page; Madappa Prakash; James M. Lattimer; Andrew W. Steiner

doi:10.1103/PhysRevLett.85.2048

Prospects of Detecting Baryon and Quark Superfluidity from Cooling Neutron Stars

Dany Page, Madappa Prakash, James M. Lattimer, and Andrew W. Steiner

Phys. Rev. Lett. 85, 2048 – Published 4 September 2000

Abstract

Baryon and quark superfluidity in the cooling of neutron stars are investigated. Future observations will allow us to constrain combinations of the neutron or $Λ$ -hyperon pairing gaps and the star's mass. However, in a hybrid star with a mixed phase of hadrons and quarks, quark gaps larger than a few tenths of an MeV render quark matter virtually invisible for cooling. If the quark gap is smaller, quark superfluidity could be important, but its effects will be nearly impossible to distinguish from those of other baryonic constituents.

Received 9 May 2000

DOI:https://doi.org/10.1103/PhysRevLett.85.2048

Authors & Affiliations

Dany Page¹, Madappa Prakash², James M. Lattimer², and Andrew W. Steiner²

¹Instituto de Astronomía, UNAM, Mexico D.F. 04510, Mexico
²Department of Physics & Astronomy, SUNY at Stony Brook, Stony Brook, New York 11794-3800

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Vol. 85, Iss. 10 — 4 September 2000

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Physical Review Letters

Prospects of Detecting Baryon and Quark Superfluidity from Cooling Neutron Stars

Dany Page, Madappa Prakash, James M. Lattimer, and Andrew W. Steiner

Phys. Rev. Lett. 85, 2048 – Published 4 September 2000

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