Metallic Surface States Probed Within the Microwave Skin Depth of the Putative Topological Insulator YBiPt Compound

Abstract

Electron Spin Resonance (ESR) experiments of diluted Nd3+ ions in the claimed topological insulator (TI) YBiPt are reported. Powdered samples with grain size from ≈ 100 μm to ≈ 2,000 μm were investigated. At low temperatures, 1.6 K T 20 K, the X-band (9.4 GHz) ESR spectra show a g-value of 2.66(4) and a Dysonian resonance lineshape which shows a remarkably unusual temperature, concentration, microwave power and particle size dependence. These results indicate that metallic and insulating behavior coexist within a skin depth of δ ≈ 15 μm. Furthermore, the Nd3+ spin dynamics in YBiPt are consistent with the existence of a phonon-bottleneck process which allows the energy absorbed by the Nd3+ ions at resonance to reach the thermal bath via the conduction electrons in the metallic surface states of YBiPt. These results are discussed in terms of the claimed topological semi-metal properties of YBiPt.