Entropy and Spin Susceptibility of s-wave Type-II Superconductors near Hc2

Abstract

A theoretical study is performed on the entropy S s and the spin susceptibility s near the upper critical field Hc2 of s-wave type-II superconductors with arbitrary impurity concentrations. The changes of these quantities through Hc2 may be expressed as [S s(T,B)-S s(T,0)]/[S n(T)-S s(T,0)]=1-αS(1-B/Hc2)≈ (B/Hc2)αS, for example, where B is the average flux density and S n denotes entropy in the normal state. It is found that the slopes αS and α at T=0 are identical, connected directly with the zero-energy density of states, and vary from 1.72 in the dirty limit to 0.5 0.6 in the clean limit. This mean-free-path dependence of αS and α at T=0 is quantitatively the same as that of the slope α(T=0) for the flux-flow resistivity studied previously. The result suggests that S s(B) and s(B) near T=0 are convex downward (upward) in the dirty (clean) limit, deviating substantially from the linear behavior B/Hc2. The specific-heat jump at Hc2 also shows fairly large mean-free-path dependence.

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