Tunneling Current-controlled Spin States in Few-layer Van Der Waals Magnets

Overview

Journal Nat Commun

Specialty Biology

Date 2024 May 1

PMID 38693113

Authors

ZhuangEn Fu

Piumi I Samarawickrama

John Ackerman

Yanglin Zhu

Zhiqiang Mao

Kenji Watanabe

Takashi Taniguchi

Wenyong Wang

Yuri Dahnovsky

Mingzhong Wu

TeYu Chien

Jinke Tang

Allan H MacDonald

Hua Chen

Jifa Tian

Affiliations

Soon will be listed here.

Abstract

Effective control of magnetic phases in two-dimensional magnets would constitute crucial progress in spintronics, holding great potential for future computing technologies. Here, we report a new approach of leveraging tunneling current as a tool for controlling spin states in CrI. We reveal that a tunneling current can deterministically switch between spin-parallel and spin-antiparallel states in few-layer CrI, depending on the polarity and amplitude of the current. We propose a mechanism involving nonequilibrium spin accumulation in the graphene electrodes in contact with the CrI layers. We further demonstrate tunneling current-tunable stochastic switching between multiple spin states of the CrI tunnel devices, which goes beyond conventional bi-stable stochastic magnetic tunnel junctions and has not been documented in two-dimensional magnets. Our findings not only address the existing knowledge gap concerning the influence of tunneling currents in controlling the magnetism in two-dimensional magnets, but also unlock possibilities for energy-efficient probabilistic and neuromorphic computing.

Citing Articles

Proximity Effect of Optically Active h-BCN Nanoflakes Deposited on Different Substrates to Tailor Electronic, Spintronic, and Optoelectronic Properties.

Alsaad A, Bai J, Mei W, Turallo J, Ilie C, Sabirianov R Int J Mol Sci. 2025; 26(5).

PMID: 40076718 PMC: 11899974. DOI: 10.3390/ijms26052096.

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