Low-temperature thermal expansion of the topological material candidates β-PtBi2 and β-Bi2Pd

Abstract

We report on the low-temperature (T < 120 K) thermal expansion of the bismuth-based topological semimetal β-PtBi2 and topological superconductor β-Bi2Pd candidates. The linear thermal-expansion coefficient of tetragonal β-Bi2Pd shows a pronounced anisotropy between the a- and c-axis while the volume thermal-expansion coefficient αV(β-Bi2Pd) is considerable larger than αV(β-PtBi2). The coefficient αV(β-PtBi2) nearly matches the experimental specific heat, from which a Debye temperature θD = 199 K is obtained. On the other hand, αV(β-Bi2Pd) reasonably fits the Debye model with θD = 138 K, extracted from the low-temperature specific heat. An almost constant Gr\"uneisen parameter ≈ 2 is obtained for both compounds. No magnetostriction is observed in any of both compounds up to μ0 H = 16 T. We compare our results with other Bi-based topological materials.