Static and Dynamic Electronic Properties of Weyl Semimetal NbP -- A Single Crystal 93Nb-NMR Study

Abstract

Nuclear magnetic resonance (NMR) techniques have been used to study the static and dynamic microscopic properties of the Weyl semimetal NbP. From a complete analysis of the angular dependence of the 93Nb-NMR spectra in a single crystal, the parameters for the electric quadrupole interactions and the magnetic hyperfine interactions were determined to be Q = 0.61\,MHz, η = 0.20, (KXX, KYY, KZZ) = (- 0.06, 0.11, - 0.11)\% at 4.5\,K. The temperature and field dependence of the 93Nb Knight shift revealed a characteristic feature of the shape of the density of states with nearly massless fermions. We clearly observed a quantum oscillation of the Knight shift associated with the band structure, whose frequency was in good agreement with the previous bulk measurements. The temperature dependence of the spin-lattice relaxation rate, 1 / T1 T, showed an almost constant behavior for 30 < T < 180\,K, while a weak temperature dependence was observed below 30\,K. This contrasts with the behavior observed in TaP and TaAs, where the 1 / T1 T measured by the 181Ta nuclear quadrupole resonance (NQR) shows 1 / T1 T T2 and T4 above approximately 30\,K. In TaP, the temperature dependent orbital hyperfine interaction plays a signficant role in nuclear relaxation, whereas this contribution is not observed in TaAs. Two-component spin echo oscillations were observed. The shorter-period oscillation is attributed to the origin of quadrupole coupling, while the longer-period oscillation indicates the presence of indirect nuclear spin-spin coupling, as discussed in other Weyl semimetal like TaP.

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