Theoretical Study Of Current-Induced Dynamics Of An Antiferromagnetic Skyrmionium
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ABSTRACT
In this thesis, we present a theoretical study on the current-induced nucleation and propagation of antiferromagnetic skyrmionium. A skyrmionium, also known as 2π-skyrmion, is a vortex-like magnetic structure characterized by zero topological charge. We show by means of micro-magnetic simulation that an antiferromagnetic skyrmionium can be nucleated via a local injection of spin current with toroidal distribution. Our systematic study of the current-induced dynamics shows that a spatially uniform spin current induces propagation of antiferromagnetic skyrmionium with measurable distortion at high current densities. We derive expression for the velocity of the antiferromagnetic skyrmionium based on the collective-coordinate model and obtain good agreement with our numerical results.
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APA
(2026). Theoretical Study Of Current-Induced Dynamics Of An Antiferromagnetic Skyrmionium. Afribary. Retrieved June 14, 2026, from http://library.afribary.com/works/theoretical-study-of-current-induced-dynamics-of-an-antiferromagnetic-skyrmionium
MLA
"Theoretical Study Of Current-Induced Dynamics Of An Antiferromagnetic Skyrmionium." Afribary, 6 Jun. 2026, http://library.afribary.com/works/theoretical-study-of-current-induced-dynamics-of-an-antiferromagnetic-skyrmionium. Accessed June 14, 2026.
Chicago
"Theoretical Study Of Current-Induced Dynamics Of An Antiferromagnetic Skyrmionium." Afribary (2026). Accessed June 14, 2026. http://library.afribary.com/works/theoretical-study-of-current-induced-dynamics-of-an-antiferromagnetic-skyrmionium