Electronic thermal resistivity and quasi-particle collision cross-section in semi-metals

Abstract

Electron-electron collisions lead to a T-square component in the electrical resistivity of Fermi liquids. The case of liquid 3He illustrates that the thermal resitivity of a Fermi liquid has a T-square term, expressed in m·W-1. Its natural units are /kFEF2. Here, we present a high-resolution study of the thermal conductivity in bismuth, employing magnetic field to extract the tiny electronic component of the total thermal conductivity and resolving signals as small as ≈ 60 μK. We find that the electronic thermal resistivity follows a T-square temperature dependence with a prefactor twice larger than the electric T-square prefactor. Adding this information to what has been known for other semi-metals, we find that the prefactor of the T-square thermal resistivity scales with the square of the inverse of the Fermi temperature, implying that the dimensionless fermion-fermion collision cross-section is roughly proportional to the Fermi wavelength, indicating that it is not simply set by the strength of the Coulomb interaction.

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