Finite-temperature and supercharged ideal supersymmetric matter

J. Kapusta; S. Pratt; V. Višnjić

doi:10.1103/PhysRevD.28.3093

Finite-temperature and supercharged ideal supersymmetric matter

J. Kapusta, S. Pratt, V. Višnjić

Physics and Astronomy (Twin Cities)

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Abstract

We investigate the properties of simple, ideal supersymmetric matter in 0 + 1 and 3 + 1 dimensions at finite temperature and finite supercharge density. The functional dependence of the partition function Z on the temperature T and chemical potential is qualitatively different from the usual situation of a net U(1) charge density, such as electric charge or fermion number. This is a consequence of the fact that the Hamiltonian H is the square of the supercharge Q, H=Q2.

Original language	English (US)
Pages (from-to)	3093-3099
Number of pages	7
Journal	Physical Review D
Volume	28
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevD.28.3093
State	Published - Jan 1 1983

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abstract = "We investigate the properties of simple, ideal supersymmetric matter in 0 + 1 and 3 + 1 dimensions at finite temperature and finite supercharge density. The functional dependence of the partition function Z on the temperature T and chemical potential is qualitatively different from the usual situation of a net U(1) charge density, such as electric charge or fermion number. This is a consequence of the fact that the Hamiltonian H is the square of the supercharge Q, H=Q2.",

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N2 - We investigate the properties of simple, ideal supersymmetric matter in 0 + 1 and 3 + 1 dimensions at finite temperature and finite supercharge density. The functional dependence of the partition function Z on the temperature T and chemical potential is qualitatively different from the usual situation of a net U(1) charge density, such as electric charge or fermion number. This is a consequence of the fact that the Hamiltonian H is the square of the supercharge Q, H=Q2.

AB - We investigate the properties of simple, ideal supersymmetric matter in 0 + 1 and 3 + 1 dimensions at finite temperature and finite supercharge density. The functional dependence of the partition function Z on the temperature T and chemical potential is qualitatively different from the usual situation of a net U(1) charge density, such as electric charge or fermion number. This is a consequence of the fact that the Hamiltonian H is the square of the supercharge Q, H=Q2.

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Finite-temperature and supercharged ideal supersymmetric matter

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