2023
DOI: 10.1002/adfm.202308944
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Observation of Magnon Spin Transport in BiFeO3 Thin Films

Yuhan Liang,
Dingsong Jiang,
Yahong Chai
et al.

Abstract: Magnon, a quanta of spin waves, can transport in magnetically ordered insulators without substantial heat dissipation. The recently demonstrated magnon‐mediated spin torque through antiferromagnetic insulators is regarded as a highly efficient approach for electrical manipulation of magnetization. To control the magnon transport in antiferromagnets, a very large magnetic field is required, since antiferromagnets show immunity to external magnetic disturbance. The antiferromagnetic order can be electrically con… Show more

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Cited by 4 publications
(3 citation statements)
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“…Various types of ferromagnetic materials with different structures have been reported, and their magnetic properties can be regulated by structural design. [ 35–39 ] However, the intershell magnetic interactions of ferromagnetic materials to guide structural design has not been systematically simulated to guide the structural design. To address this problem, micromagnetic simulations of ferromagnetic materials were performed.…”
Section: Resultsmentioning
confidence: 99%
“…Various types of ferromagnetic materials with different structures have been reported, and their magnetic properties can be regulated by structural design. [ 35–39 ] However, the intershell magnetic interactions of ferromagnetic materials to guide structural design has not been systematically simulated to guide the structural design. To address this problem, micromagnetic simulations of ferromagnetic materials were performed.…”
Section: Resultsmentioning
confidence: 99%
“…A charge current pulse (I w ) flowing through the channel induces spin accumulation with polarization at the multiferroic bottom interface through the spin-Hall effect or the Rashba–Edelstein effect 35 , 36 , which can excite antiferromagnetic magnon modes depending on the orientation of , as the spin injection transmitted to magnons is proportional to 37 , 38 . As the magnons (carrying the spin-polarized angular momentum from the bottom layer) diffuse across the multiferroic layer to the ferromagnet’s bottom interface, they exert the magnon torque to control the magnetic moment 17 , 39 , 40 , enabling non-volatile writing of spin information to multiple cells on the current channel in parallel. For magnon logic operations, a gate voltage (V G ) pulse is applied across the multiferroic BiFeO 3 to switch , which can modulate the antiferromagnetic structure as schematically shown in the pseudo-cubic unit cell of BiFeO 3 (Fig.…”
Section: Introductionmentioning
confidence: 99%
“…Hetero-interfaces between two different materials can provide model systems for investigating the relation between external stimuli and collective spin waves. Examples are the effects of lattice strain 7 , interfacial coupling, and charge transfer on magnons 8,9 and their spin currents [10][11][12] . In particular, interfaces between an antiferromagnetic insulator and a metal have been considered for novel spin-charge conversion 13,14 .…”
mentioning
confidence: 99%