Resonant anomalous Hall effect in a ferromagnetic Weyl semimetal-Reference-Cited by-同舟云学术

Resonant anomalous Hall effect in a ferromagnetic Weyl semimetal

Published:2024-01-23 Issue:1 Volume:11 Page:
ISSN:1931-9401
Container-title:Applied Physics Reviews
language:en
Short-container-title:

Author:

Sheng Lutong¹²^ORCID,Zhang Yao³⁴^ORCID,Wang Jinlong¹,Chen Peng⁵^ORCID,Hu Junfeng²^ORCID,Xia Jihao⁵,Lan Guibin⁵^ORCID,Chen Jilei²⁶,Yu Kanglin¹^ORCID,Zhang Yuelin¹,Han Xiufeng⁵^ORCID,Liu Song²⁶,Yu Dapeng²⁶,Granville Simon³⁴^ORCID,Yu Haiming¹²^ORCID

Affiliation:

1. Fert Beijing Institute, School of Integrated Circuit Science and Engineering, Beihang University 1 , Beijing 100191, China

2. International Quantum Academy 2 , Shenzhen 518048, China

3. Robinson Research Institute, Victoria University of Wellington 3 , Wellington, New Zealand

4. MacDiarmid Institute for Advanced Materials and Nanotechnology 4 , Wellington 6011, New Zealand

5. Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, University of Chinese Academy of Sciences, Chinese Academy of Sciences 5 , Beijing 100190, China

6. Shenzhen Institute for Quantum Science and Engineering, Southern University of Science and Technology 6 , Shenzhen 518055, China

Abstract

The anomalous Hall effect (AHE) has been widely studied and is well-known in ferromagnetic metals. It is usually investigated in the static regime with the magnetization at equilibrium. In this work, we study the AHE in the dynamic regime where the magnetization is resonantly excited. The microwave-induced ac current and magnetization precession both at GHz frequencies can cooperatively generate a dc voltage. In conventional ferromagnets, this effect, dubbed as resonant AHE (RAHE), is often overwhelmed by other effects such as spin pumping and spin rectification induced by anisotropic magnetoresistance. Here, we observe the RAHE in Co2MnGa, a ferromagnetic Weyl semimetal. In this material, the RAHE dominates over other effects, as observed in angle-dependent measurements. The RAHE in Co2MnGa is an order of magnitude larger than in Permalloy, a conventional ferromagnet. This enhancement is induced by the Berry curvature in the topological band structure of Co2MnGa. The large RAHE demonstrated in this work provides a viable methodology to convert microwave signals into dc voltages for telecommunication applications.

Funder

National Key Research and Development Program of China

Key Programme

Publisher

AIP Publishing

Link

https://pubs.aip.org/aip/apr/article-pdf/doi/10.1063/5.0173111/18703131/011405_1_5.0173111.pdf

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