Monoaxial Dzyaloshinskii-Moriya interaction–induced topological Hall effect in a new chiral-lattice magnet GdPt2B

Abstract

We investigate the topological Hall effect (THE) in the monoaxial chiral crystal ${\mathrm{GdPt}}_{2}\mathrm{B}$, a recently discovered compound that exhibits putative helimagnetism below 87 K. The distinct THE was observed in ${\mathrm{GdPt}}_{2}\mathrm{B}$ in the magnetically ordered state. The scaling relations for anomalous and topological Hall conductivities differed from those of conventional models based on the scattering process. We further demonstrate the clear scaling behavior of the THE in a wide temperature range, which we attribute to the monoaxial Dzyaloshinskii-Moriya (DM) interaction under external magnetic fields perpendicular to the screw axis. The THE induced by the monoaxial DM interaction as well as the THE in a monoaxial chiral crystal of an $f$-electron system are demonstrated in this study.