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Temperature and purity dependence of the nuclear-spin relaxation rate in the gapless region of type-II superconductors (1966)

Eppel, D. ; Pesch, W. ; Tewordt, L.

Springer

The European physical journal 197 (1966), S. 46-57

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ISSN: 1434-601X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract The volume average of the nuclear-spin relaxation rate in type-II superconductors,R s, is calculated for magnetic fields slightly below the upper critical field and all mean free paths,l, and temperatures. It is found to be expressible solely in terms of the volume average of the density of states, $$\bar N(\omega )$$ , where the latter quantity has been determined recently byNeumann for alll. The derivation is based onHelfand andWerthamer's eigen-value equation for the order parameter,Δ. The deviation of $$\bar R_s $$ from the relaxation rate in the normal state,R n, is proportional to the quantity $$[|\overline {\Delta |^2 } /\Delta _{BCS}^2 (T)]R_n $$ (the bar denotes the spatial average). The proportionality factor is found to decrease monotonously as the temperature decreases and/orl increases. This behavior is closely related to the fact that $$\bar N(\omega )$$ shows no gap for the excitation energiesω and decreases asl increases, in particular at energiesω close to zero (ω=0 corresponds to the Fermi energy).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01333085

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Theory of the density of states of pure type-II superconductors in high magnetic fields (1967)

Brandt, U. ; Pesch, W. ; Tewordt, L.

Springer

The European physical journal 201 (1967), S. 209-221

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ISSN: 1434-601X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract This paper deals with the theory of the density of states of pure type-II superconductors in high magnetic fields. An approximate expression of theGreen's function is derived by using the fact that it has the periodicity of the lattice of flux lines in the center-of-mass coordinates. In comparison to the normal stateGreen's function a correction term proportional to the absolute square of the order parameter arises. This is seen to act as a self-energy part depending strongly on the polar angleΘ of the “quasiparticle” momentum relative to the direction of the field. The corresponding density of states, as a function of the excitation energy, is found to vary from the gapless to the BCS type as the parameterΘ changes fromπ/2 to zero (orπ). The averaged state density varies gradually from a uniform to a BCS-like state density as the external field decreases sufficiently far below the upper critical field. The results of the present theory for the averaged density of states agree fairly well with the results due to a conjecture byMaki if the field is very close to the upper critical field.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01326812

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