Equation of state of superfluid neutron matter and the calculation of the S01 pairing gap

S. Gandolfi; A. Yu Illarionov; S. Fantoni; F. Pederiva; Kevin Schmidt

doi:10.1103/PhysRevLett.101.132501

Equation of state of superfluid neutron matter and the calculation of the S01 pairing gap

S. Gandolfi, A. Yu Illarionov, S. Fantoni, F. Pederiva, Kevin Schmidt

Physics

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94 Scopus citations

Abstract

We present a quantum Monte Carlo study of the zero-temperature equation of state of neutron matter and the computation of the S01 pairing gap in the low-density regime with ρ<0.04fm-3. The system is described by a nonrelativistic nuclear Hamiltonian including both two- and three-nucleon interactions of the Argonne and Urbana type. This model interaction provides very accurate results in the calculation of the binding energy of light nuclei. A suppression of the gap with respect to the pure BCS theory is found, but sensibly weaker than in other works that attempt to include polarization effects in an approximate way.

Original language	English (US)
Article number	132501
Journal	Physical Review Letters
Volume	101
Issue number	13
DOIs	https://doi.org/10.1103/PhysRevLett.101.132501
State	Published - Sep 22 2008

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Physics and Astronomy(all)

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abstract = "We present a quantum Monte Carlo study of the zero-temperature equation of state of neutron matter and the computation of the S01 pairing gap in the low-density regime with ρ<0.04fm-3. The system is described by a nonrelativistic nuclear Hamiltonian including both two- and three-nucleon interactions of the Argonne and Urbana type. This model interaction provides very accurate results in the calculation of the binding energy of light nuclei. A suppression of the gap with respect to the pure BCS theory is found, but sensibly weaker than in other works that attempt to include polarization effects in an approximate way.",

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AU - Gandolfi, S.

AU - Illarionov, A. Yu

AU - Fantoni, S.

AU - Pederiva, F.

AU - Schmidt, Kevin

PY - 2008/9/22

Y1 - 2008/9/22

N2 - We present a quantum Monte Carlo study of the zero-temperature equation of state of neutron matter and the computation of the S01 pairing gap in the low-density regime with ρ<0.04fm-3. The system is described by a nonrelativistic nuclear Hamiltonian including both two- and three-nucleon interactions of the Argonne and Urbana type. This model interaction provides very accurate results in the calculation of the binding energy of light nuclei. A suppression of the gap with respect to the pure BCS theory is found, but sensibly weaker than in other works that attempt to include polarization effects in an approximate way.

AB - We present a quantum Monte Carlo study of the zero-temperature equation of state of neutron matter and the computation of the S01 pairing gap in the low-density regime with ρ<0.04fm-3. The system is described by a nonrelativistic nuclear Hamiltonian including both two- and three-nucleon interactions of the Argonne and Urbana type. This model interaction provides very accurate results in the calculation of the binding energy of light nuclei. A suppression of the gap with respect to the pure BCS theory is found, but sensibly weaker than in other works that attempt to include polarization effects in an approximate way.

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Equation of state of superfluid neutron matter and the calculation of the S01 pairing gap

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