Litcius/Paper detail

Antiferromagnetic magnonic charge current generation via ultrafast optical excitation

Lin Huang, Liyang Liao, Hongsong Qiu, Xianzhe Chen, Hua Bai, Lei Han, Yongjian Zhou, Yichen Su, Zhiyuan Zhou, Feng Pan, Biaobing Jin, Cheng Song

2024Nature Communications12 citationsDOIOpen Access PDF

Abstract

Abstract Néel spin-orbit torque allows a charge current pulse to efficiently manipulate the Néel vector in antiferromagnets, which offers a unique opportunity for ultrahigh density information storage with high speed. However, the reciprocal process of Néel spin-orbit torque, the generation of ultrafast charge current in antiferromagnets has not been demonstrated. Here, we show the experimental observation of charge current generation in antiferromagnetic metallic Mn 2 Au thin films using ultrafast optical excitation. The ultrafast laser pulse excites antiferromagnetic magnons, resulting in instantaneous non-equilibrium spin polarization at the antiferromagnetic spin sublattices with broken spatial symmetry. Then the charge current is generated directly via spin-orbit fields at the two sublattices, which is termed as the reciprocal phenomenon of Néel spin-orbit torque, and the associated THz emission can be detected at room temperature. Besides the fundamental significance on the Onsager reciprocity, the observed magnonic charge current generation in antiferromagnet would advance the development of antiferromagnetic THz emitter.

Topics & Concepts

Ultrashort pulseExcitationAntiferromagnetismCharge (physics)Materials sciencePhysicsCondensed matter physicsOpticsLaserQuantum mechanicsPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaMagnetic properties of thin films