2003
DOI: 10.1103/physrevb.68.220503
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Influence of the pseudogap on the thermal conductivity and the Lorenz number ofYBa2Cu3O

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Cited by 21 publications
(17 citation statements)
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“…For example, a-direction thermal conductivity on YBCO6+x was reported by Minami et al (24), but for similar doping, their crystals show much larger resistivity than measurements done on crystals similar to our crystals (12). At the same time, Inyushkin et al (40) measured twinned crystals with similar doping levels, which are expected to yield a larger value as the a-and b-directions average (50).…”
Section: Significancementioning
confidence: 74%
“…For example, a-direction thermal conductivity on YBCO6+x was reported by Minami et al (24), but for similar doping, their crystals show much larger resistivity than measurements done on crystals similar to our crystals (12). At the same time, Inyushkin et al (40) measured twinned crystals with similar doping levels, which are expected to yield a larger value as the a-and b-directions average (50).…”
Section: Significancementioning
confidence: 74%
“…However, the usefulness of WF law is restricted by the fact that κ el is often only a small fraction of the total thermal conductivity and, moreover, there are circumstances in which the Lorenz number is no longer equal to L 0 . The most trivial reason is inelastic scattering of charge carriers by phonons that reduces value of L , another is a pseudogap, which emerges in the normal state of some unconventional superconductors , which causes an enhancement of L above L 0 . A very small Fermi energy will also cause an increase of L .…”
Section: Resultsmentioning
confidence: 99%
“…However, κ xy / BT < L 0 σ xy / B in Se15, whereas κ xy / BT > L 0 σ xy / B in Se41. Analogously to other transport coefficients, the total Hall–Lorenz number in a multiband conductor can be divided between hole and electron contributions as : Lxy=Lxynormaleσxynormale+Lxynormalhσxynormalhσxynormale+σxynormalh. …”
Section: Resultsmentioning
confidence: 99%
“…In addition to potentially scattering electrons, phonons in unconventional metals are unconventional in their own right, as was noted early on by [58]. Furthermore, the large Lorenz ratio of cuprates at high temperatures suggests that phonons play an important role in heat transport in these materials [58][59][60][61][62]. This stands in contrast to standard metals, in which heat is mostly carried by electrons, and is possible because in correlated systems the lower Fermi velocities reduce the electronic contribution to heat transport.…”
Section: Heat Transport and Planckian Phononsmentioning
confidence: 98%