Evidence for field-induced excitations in low-temperature thermal conductivity of Bi2Sr2CaCu2O8
Abstract
The thermal conductivity ,, of Bi2Sr2CaCu2O8 was studied as a function of magnetic field. Above 5 K, after an initial decrease, (H) presents a kink followed by a plateau, as recently reported by Krishana et al.. By contrast, below 1K, the thermal conductivity was found to increase with increasing field. This behavior is indicative of a finite density of states and is not compatible with the existence of a field-induced fully gapped dx2-y2+idxy state which was recently proposed to describe the plateau regime. Our low-temperature results are in agreement with recent works predicting a field-induced enhancement of thermal conductivity by Doppler shift of quasi-particle spectrum.
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