Current-induced magnetic vortex motion by spin-transfer torque

This chapter defines a magnetic domain wall (DW) as the transition region where the direction of magnetic moments gradually change between two neighbouring domains. It has been pointed out that ferromagnetic materials are not necessarily magnetized to saturation in the absence of an external magnetic field. Instead, they have magnetic domains, within each of which magnetic moments align. The formation of the magnetic domains is energetically favourable because this structure can lower the magnetostatic energy originating from the dipole–dipole interaction. A magnetic vortex realized in a ferromagnetic disk is a typical example of nonuniform magnetic structure. In very small ferromagnetic systems, where a curling spin configuration has been proposed to occur in place of domains, the formation of DWs is not energetically favored.

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Vortex Motion for the Landau–Lifshitz–Gilbert Equation with Spin-Transfer Torque

SIAM Journal on Mathematical Analysis ◽

10.1137/100806965 ◽

2011 ◽

Vol 43 (3) ◽

pp. 1099-1121 ◽

Cited By ~ 8

Author(s):

Matthias Kurzke ◽

Christof Melcher ◽

Roger Moser

Keyword(s):

Vortex Motion ◽

Spin Transfer Torque ◽

Spin Transfer

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Reversal process of a magnetic vortex core under the combined action of a perpendicular field and spin transfer torque

Applied Physics Letters ◽

10.1063/1.4790841 ◽

2013 ◽

Vol 102 (6) ◽

pp. 062401 ◽

Cited By ~ 17

Author(s):

N. Locatelli ◽

A. E. Ekomasov ◽

A. V. Khvalkovskiy ◽

Sh. A. Azamatov ◽

K. A. Zvezdin ◽

...

Keyword(s):

Vortex Core ◽

Spin Transfer Torque ◽

Spin Transfer ◽

Magnetic Vortex ◽

Reversal Process ◽

Combined Action ◽

Perpendicular Field

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Introduction of spin torques

10.1093/oso/9780198787075.003.0019 ◽

2017 ◽

Author(s):

T. Kimura

Keyword(s):

Angular Momentum ◽

Giant Magnetoresistance ◽

Spontaneous Magnetization ◽

Magnetic Domain ◽

Magnetic Multilayers ◽

Transfer Effect ◽

Spin Transfer Torque ◽

Spin Transfer ◽

Spin Angular Momentum ◽

Spin Torques

This chapter discusses the spin-transfer effect, which is described as the transfer of the spin angular momentum between the conduction electrons and the magnetization of the ferromagnet that occurs due to the conservation of the spin angular momentum. L. Berger, who introduced the concept in 1984, considered the exchange interaction between the conduction electron and the localized magnetic moment, and predicted that a magnetic domain wall can be moved by flowing the spin current. The spin-transfer effect was brought into the limelight by the progress in microfabrication techniques and the discovery of the giant magnetoresistance effect in magnetic multilayers. Berger, at the same time, separately studied the spin-transfer torque in a system similar to Slonczewski’s magnetic multilayered system and predicted spontaneous magnetization precession.

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