Electrical properties of magnetic nanocontact devices computed using finite-element simulations

Artigo Acesso aberto Revisado por pares

Electrical properties of magnetic nanocontact devices computed using finite-element simulations

2012; American Institute of Physics; Volume: 100; Issue: 8 Linguagem: Inglês

10.1063/1.3687915

ISSN

1520-8842

Autores

S. Petit, R. M. Otxoa, Mauricio Manfrini,

Tópico(s)

Quantum and electron transport phenomena

Resumo

We compute the electrical current flow and associated Oersted fields in magnetic nanocontact (NC) systems with finite-element simulations. Underneath the nanocontact, the current distribution is found to be mainly perpendicular to the film plane, while the flow is essentially in the film plane outside the nanocontact region. For circular nanocontacts, we provide criteria for which the cylindrical approximation remains valid for electrical flow in asymmetric rectangular devices. The nature of the current distribution, and the induced field, is a key to understanding spin-torque driven magnetization dynamics in such systems.

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Electrical properties of magnetic nanocontact devices computed using finite-element simulations