# Planar topological Hall effect in a uniaxial van der Waals ferromagnet   Fe3GeTe2

**Authors:** Yurong You, Yuanyuan Gong, Hang Li, Zefang Li, Mengmei Zhu, Jiaxuan, Tang, Enke Liu, Yuan Yao, Guizhou Xu, Feng Xu, Wenhong Wang

arXiv: 1907.02397 · 2019-11-06

## TL;DR

This paper reports the discovery of a novel planar topological Hall effect in Fe3GeTe2, a 2D ferromagnet, which could serve as an alternative method to detect in-plane skyrmions and advance magneto-transport research.

## Contribution

It introduces the observation of a robust planar topological Hall effect in Fe3GeTe2, linking it to possible topological domain structures or non-coplanar spin configurations.

## Key findings

- PTHE observed across all temperatures below Tc (~150 K)
- Large PTHE value at 100 K
- PTHE persists during magnetic field rotation in specific planes

## Abstract

In this work, we reported the observation of a novel planar topological Hall effect (PTHE) in single crystal of Fe3GeTe2, a paradigmatic two-dimensional ferromagnet with strong uniaxial anisotropy. The Hall effect and magnetoresistance varied periodically when the external magnetic field rotated in the ac (or bc) plane, while the PTHE emerged and maintained robust with field swept across the hard-magnetized ab plane. The PTHE covers the whole temperature region below Tc (~150 K) and a comparatively large value is observed at 100 K. Emergence of an internal gauge field was proposed to explain the origin of this large PTHE, which is either generated by the possible topological domain structure of uniaxial Fe3GeTe2 or the non-coplanar spin structure formed during the in-plane magnetization. Our results promisingly provide an alternative detection method to the in-plane skyrmion formation and may bring brand-new prospective to magneto-transport studies in condensed matter physics.

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Source: https://tomesphere.com/paper/1907.02397