Low-temperature phonon thermal conductivity of cuprate single crystals

Abstract

The effect of sample size and surface roughness on the phonon thermal conductivity p of Nd2CuO4 single crystals was studied down to 50 mK. At 0.5 K, p is proportional to A, where A is the cross-sectional area of the sample. This demonstrates that p is dominated by boundary scattering below 0.5 K or so. However, the expected T3 dependence of p is not observed down to 50 mK. Upon roughing the surfaces, the T3 dependence is restored, showing that departures from T3 are due to specular reflection of phonons off the mirror-like sample surfaces. We propose an empirical power law fit, to p Tα (where α < 3) in cuprate single crystals. Using this method, we show that recent thermal conductivity studies of Zn doping in YBa2Cu3Oy re-affirm the universal heat conductivity of d-wave quasiparticles at T 0.