Interplay between the Energy Gap and Heat Capacity in S-Wave Superconductor

Gonczarek, R.; Mulak, Maciej

doi:10.1002/(sici)1521-3951(199808)208:2<457::aid-pssb457>3.0.co;2-5

phys. stat. sol. (b)

1998

DOI: 10.1002/(sici)1521-3951(199808)208:2<457::aid-pssb457>3.0.co;2-5

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Interplay between the Energy Gap and Heat Capacity in S-Wave Superconductor

R. Gonczarek

Maciej Mulak

Abstract: Starting from the postulated, generalized form of the BCS gap equation, suitable for a wide class of microscopic models, the thermodynamic properties of S-wave superconductors are studied. The precise analytical formulas for the main thermodynamic quantities are given and discussed in the characteristic temperature limits. In particular the inversion of the equations defining the specific heat as a function of DT, i.e. the temperature dependence of the energy gap in S-wave superconductor is presented. It makes… Show more

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2003

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Some universal relations between the gap and thermodynamic functions plausible for various models of superconductors

Gonczarek

Krzyzosiak²

2003

Physica Status Solidi (b)

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It is proven that there exist some universal relations between the energy gap and the differences of the thermodynamic potential, entropy, specific heat and critical magnetic field for many two-and threedimensional models of superconductivity with spin-singlet Cooper pairs forming s or d or g etc. states. The obtained formulae make it possible to derive thermodynamic functions and, in particular, the superconducting specific heat and the critical magnetic induction in the whole temperature range 0 T T c employing the form of DðTÞ only. The inverse formula allowing us to find DðTÞ, when the temperature dependence of the specific heat difference is known, is also presented. The results are referred to some obtained within the McMillan formalism, and some remarks on the application of the present formulae to the t -J model are given.

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Some universal relations between the gap and thermodynamic functions plausible for various models of superconductors

Gonczarek

Krzyzosiak²

2003

Physica Status Solidi (b)

View full text Add to dashboard Cite

show abstract

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Interplay between the Energy Gap and Heat Capacity in S-Wave Superconductor

Cited by 1 publication

References 4 publications

Some universal relations between the gap and thermodynamic functions plausible for various models of superconductors

Some universal relations between the gap and thermodynamic functions plausible for various models of superconductors

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