1976
DOI: 10.1103/physrevb.14.1916
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Thermal conductivity of superconducting alloy films in a perpendicular magnetic field

Abstract: We have measured the thermal conductivity of superconducting films of indium-bismuth alloys in a perpendicular magnetic field. The films were condensed onto glass substrates held at 77 K, and had thicknesses ranging from 1050 to 4570 A. Values of the ratio of the BCS coherence length to the electron mean free path for these films were 9. We made measurements at temperatures T between 0.3 and 1.0 K for magnetic fields ranging from zero to above the upper. critical field H". We plotted the thermal conductivity a… Show more

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Cited by 41 publications
(77 citation statements)
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“…Therefore, there is no residual linear term of κ 0 /T , as seen in Nb and InBi. 27,28 In contrast, a finite κ 0 /T in zero field is usually observed in a superconductor with nodal gap, if the heat current is not perpendicular to the nodal directions. 20 For example, κ 0 /T = 1.41 mW K −2 cm −1 was observed with heat current in the ab plane for the overdoped cuprate Tl 2 Ba 2 CuO 6+δ (Tl-2201), a d-wave superconductor with T c = 15 K. 29 However, if the heat current is perpendicular to the nodal directions, the κ 0 /T will still be zero despite the existence of gap nodes.…”
Section: 22mentioning
confidence: 99%
“…Therefore, there is no residual linear term of κ 0 /T , as seen in Nb and InBi. 27,28 In contrast, a finite κ 0 /T in zero field is usually observed in a superconductor with nodal gap, if the heat current is not perpendicular to the nodal directions. 20 For example, κ 0 /T = 1.41 mW K −2 cm −1 was observed with heat current in the ab plane for the overdoped cuprate Tl 2 Ba 2 CuO 6+δ (Tl-2201), a d-wave superconductor with T c = 15 K. 29 However, if the heat current is perpendicular to the nodal directions, the κ 0 /T will still be zero despite the existence of gap nodes.…”
Section: 22mentioning
confidence: 99%
“…For a clean s-wave superconductor with a single gap, κ 0 (H)/T should grow exponentially with field, as observed in Nb [33]. While for s-wave InBi in the dirty limit, the curve is exponential at low H, crossing over to a roughly linear behavior closer to H c2 [34]. In the case of NbSe 2 , the distinct κ 0 (H)/T behavior was well explained by multiple superconducting gaps with different magnitudes [37].…”
mentioning
confidence: 99%
“…For nodeless superconductors, there are no fermionic quasiparticles to conduct heat as T → 0, since all electrons become Cooper pairs. Therefore, there is no residual linear term κ 0 /T , as seen in conventional s-wave superconductors Nb and InBi [33,34]. However, for unconventional superconductors with nodes in the superconducting gap, the nodal quasiparticles will contribute a substantial κ 0 /T in zero field.…”
mentioning
confidence: 99%
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“…6 Yb plotted as a function of H=H c2 , with the small contribution from graphite impurities subtracted off. For comparison we also display low-temperature data for the clean s-wave superconductor Nb [24], the dirty s-wave superconducting alloy InBi [26], the multigap superconductor MgB 2 [28], and an overdoped sample of the d-wave superconductor Tl-2201 [19].…”
mentioning
confidence: 99%