Superfluidity in nuclear systems and neutron stars

Sedrakian, Armen; Clark, John W.

doi:10.1140/epja/i2019-12863-6

Cited by 165 publications

(192 citation statements)

References 452 publications

(913 reference statements)

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“…where the minus sign comes from the closed fermion loop, 3 is a short-hand notation for σ3σ 3 d 3 p 3 /(2π) 3 , and…”

Section: Pairing With Medium Polarizationmentioning

confidence: 99%

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Neutron pairing with medium polarization beyond the Landau approximation

Urban

Ramanan

2020

Phys. Rev. C

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We revisit the long-standing problem of the superfluid transition temperature Tc in dilute neutron matter. It is well known that Tc is strongly affected by medium polarization effects (screening) which modify the pairing interaction in the medium. We study these effects within the random-phase approximation (RPA). It turns out that the widely used Landau approximation is sufficient only at densities below about 0.002 fm −3 . At higher densities, the full RPA leads to stronger screening than the Landau approximation.

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“…where the minus sign comes from the closed fermion loop, 3 is a short-hand notation for σ3σ 3 d 3 p 3 /(2π) 3 , and…”

Section: Pairing With Medium Polarizationmentioning

confidence: 99%

“…This system of equations has actually two decoupled blocks corresponding to the indices 1, 2, 6, 8, 10, 13, 16, 18, which have products of two time-even operators, and to the indices 3,4,5,7,9,11,12,14,15,17, which have products of two time-odd operators.…”

Section: Appendix B: Fermi Liquid Parametersmentioning

confidence: 99%

Neutron pairing with medium polarization beyond the Landau approximation

Urban

Ramanan

2020

Phys. Rev. C

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“…Therefore, in the neutron star interiors neutrons are supposed to be paired in the 1S 0 state at a low baryon density n ≤ (0.7 − 0.8)n 0 , where n 0 is the nuclear saturation density, and in 3P 2 state for (3 − 4)n 0 ≥ n ≥ 0.8n 0 , cf. [29] and recent works [30,31]. However the value of the 3P 2 nn gap in the neutron matter is poorly known and varies in various calculations from tiny values < ∼ 10 KeV up to values of the order of several MeV and may be more, see Refs.…”

Section: Introductionmentioning

confidence: 98%

“…With increasing density the 3D 2 channel becomes most attractive, cf. [31]. One of the hypothesis for the explanation of the level structure of super-deformed (rotated) nuclei is the spin-triplet pairing [62][63][64].…”

Section: Introductionmentioning

confidence: 99%

Vector-boson condensates, spin-triplet superfluidity of paired neutral and charged fermions, and 3P2 pairing of nucleons

Voskresensky

2020

Phys. Rev. D

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After reminding of properties of the condensate of the complex scalar field in the external uniform magnetic field H focus is made on the study of phases of the complex neutral vector boson fields coupled with magnetic field by the Zeeman coupling and phases of the charged vector boson fields. These systems may behave as nonmagnetic and ferromagnetic superfluids and ordinary and ferromagnetic superconductors. Response of the ferromagnetic superfluid and superconducting systems occupying half of space on the external uniform static magnetic field H is thoroughly studied. Then the spin-triplet pairing of neutral fermions at conserved spin is considered. Novel phases are found. In external magnetic field the phase with zero mean spin proves to be unstable to the formation of a phase with a non-zero spin. For H > Hcr2 the spin-triplet pairing and ferromagnetic superfluidity continue to exist above the "old" phase transition critical temperature Tcr. For a certain parameter choice ferromagnetic superfluid phases are formed already for H = 0, characterized by an own magnetic field h. Formation of domains is discussed. Next, spin-triplet pairing of charged fermions is studied. Novel phases are found with a ferromagnetic superconductivity. Then, the 3P2 nn pairing in neutron star matter is studied. Also a 3P2 pp pairing is considered. Numerical estimates are performed in the BCS weak coupling limit and beyond it for the 3P2 nn and pp pairings, as well as for the 3S1 np pairing.

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“…Formation of the pasta non-uniform phases is one of the possibilities [31,35,36]. Add here possibilities of the phase transitions between various superfluid [37,38] and ferromagnetic-superfluid [39] phases in the cold neutron stars and in the color-superconducting hybrid compact stars [40], as well as numerous possibilities of the phase transitions in the condensed matter physics at terrestrial conditions, like liquid-gas, liquid-glass, glass-metal transitions, etc.…”

Section: Introductionmentioning

confidence: 99%

Evolution of Quasiperiodic Structures in a Non-Ideal Hydrodynamic Description of Phase Transitions

Voskresensky

2020

Universe

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Various phase transitions could have taken place in the early Universe, and may occur in the course of heavy-ion collisions and supernova explosions, in proto-neutron stars, cold compact stars, and in the condensed matter at terrestrial conditions. Most generally, the dynamics of the density and temperature at first-and second-order phase transitions can be described with the help of the equations of non-ideal hydrodynamics. In the given work some novel solutions are found describing the evolution of quasiperiodic structures that are formed in the course of the phase transitions. Although this consideration is very general, particular examples of quark-hadron and nuclear liquid-gas first-order phase transitions to the uniform k 0 = 0 state and pion condensate second-order phase transition to non-uniform k 0 = 0 state in dense baryon matter are considered.

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Superfluidity in nuclear systems and neutron stars

Cited by 165 publications

References 452 publications

Neutron pairing with medium polarization beyond the Landau approximation

Neutron pairing with medium polarization beyond the Landau approximation

Vector-boson condensates, spin-triplet superfluidity of paired neutral and charged fermions, and 3P2 pairing of nucleons

Evolution of Quasiperiodic Structures in a Non-Ideal Hydrodynamic Description of Phase Transitions

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