Extremely high conductivity observed in the unconventional triple point fermion material MoP

2017 
Weyl and Dirac fermions have created much attention in condensed matter physics and material science. They are realized in semimetals that have 2-fold and 4-fold degenerate crossing points and exhibit novel and exotic properties. Recently, several distinct types of fermions have been predicted which are beyond the aforementioned fermions11. Here, we report the properties of MoP, a member of the triple-point fermion (TPF) family, that shows highly metallic characteristics with remarkably low resistivity (6 n-ohm cm) and high mobility (2.4 X 10^4 cm^2 V^-1 s^-1) at 2K. We find, from de-Haas van-Alphen oscillations, together with ab-initio electronic structure calculations, carrier classical lifetime 10^2 times larger than the quantum lifetime and a Rashba-like induced band splitting. Hydrodynamic flow of the conduction electrons of the open Fermi surface or topological protection via the triple point can be also an explanation.
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