Fermi surface of the Weyl type-II metallic candidate WP2

Abstract

Weyl type-II fermions are massless quasiparticles that obey the Weyl equation and which are predicted to occur at the boundary between electron- and hole-pockets in certain semi-metals, i.e. the (W,Mo)(Te,P)2 compounds. Here, we present a study of the Fermi-surface of WP2 via the Shubnikov-de Haas (SdH) effect. Compared to other semi-metals WP2 exhibits a very low residual resistivity, i.e. 0 10 n, which leads to perhaps the largest non-saturating magneto-resistivity ((H)) reported for any compound. For the samples displaying the smallest 0, (H) is observed to increase by a factor of 2.5 × 107 \% under μ0H = 35 T at T = 0.35 K. The angular dependence of the SdH frequencies is found to be in very good agreement with the first-principle calculations when the electron- and hole-bands are slightly shifted with respect to the Fermi level, thus supporting the existence of underlying Weyl type-II points in WP2.