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From microphysics to dynamics of magnetars
ISSN
17426588
Date Issued
2017-06-13
Author(s)
Sedrakian, Armen
Huang, Xu Guang
Sinha, Monika
Clark, John W.
DOI
10.1088/1742-6596/861/1/012025
Abstract
MeV-scale magnetic fields in the interiors of magnetars suppress the pairing of neutrons and protons in the S-wave state. In the case of a neutron condensate the suppression is the consequence of the Pauli-paramagnetism of the neutron gas, i.e., the alignment of the neutron spins along the magnetic field. The proton S-wave pairing is suppressed because of the Landau diamagnetic currents of protons induced by the field. The Ginzburg-Landau and BCS theories of the critical magnetic fields for unpairing are reviewed. The macrophysical implications of the suppression (unpairing) of the condensates are discussed for the rotational crust-core coupling in magnetars and the neutrino-dominated cooling era of their thermal evolution.