Ratchet effect of the domain wall by asymmetric magnetostatic potentials

Hong Guang Piao; Hyeok Cheol Choi; Je Ho Shim; Dong Hyun Kim; Chun Yeol You

doi:10.1063/1.3658805

Ratchet effect of the domain wall by asymmetric magnetostatic potentials

Hong Guang Piao
, Hyeok Cheol Choi
, Je Ho Shim
, Dong Hyun Kim
, Chun Yeol You

Department of Physics and Chemistry

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

We investigate a ratchet effect of magnetic domain wall motion in a ferromagnetic nanowire under AC magnetic fields using micromagnetic simulation. The ratchet effect for a transverse domain wall is achieved using an asymmetric magnetic potential generated by stray fields from non-contact trapezoidal ferromagnetic stubs near the straight nanowire. The ratchet phenomenon has been examined with various combinations of amplitude and frequency of the driving AC field. Interestingly, we find that the domain wall propagates along a preferential direction by the diode-like ratchet effect under AC field. The propagation of the domain wall strongly depends on the profile of the asymmetrical magnetic potentials and the driving AC field characteristics.

Original language	English
Article number	192512
Journal	Applied Physics Letters
Volume	99
Issue number	19
DOIs	https://doi.org/10.1063/1.3658805
State	Published - 7 Nov 2011

Bibliographical note

Funding Information:
This work was supported by the Korea Research Foundation (NRF) grant (No. 2010-0004535, 2010-0021735, 2010-0022040, and 2010-0023798).

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10.1063/1.3658805

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title = "Ratchet effect of the domain wall by asymmetric magnetostatic potentials",

abstract = "We investigate a ratchet effect of magnetic domain wall motion in a ferromagnetic nanowire under AC magnetic fields using micromagnetic simulation. The ratchet effect for a transverse domain wall is achieved using an asymmetric magnetic potential generated by stray fields from non-contact trapezoidal ferromagnetic stubs near the straight nanowire. The ratchet phenomenon has been examined with various combinations of amplitude and frequency of the driving AC field. Interestingly, we find that the domain wall propagates along a preferential direction by the diode-like ratchet effect under AC field. The propagation of the domain wall strongly depends on the profile of the asymmetrical magnetic potentials and the driving AC field characteristics.",

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T1 - Ratchet effect of the domain wall by asymmetric magnetostatic potentials

AU - Piao, Hong Guang

AU - Choi, Hyeok Cheol

AU - Shim, Je Ho

AU - Kim, Dong Hyun

AU - You, Chun Yeol

N1 - Funding Information: This work was supported by the Korea Research Foundation (NRF) grant (No. 2010-0004535, 2010-0021735, 2010-0022040, and 2010-0023798).

PY - 2011/11/7

Y1 - 2011/11/7

N2 - We investigate a ratchet effect of magnetic domain wall motion in a ferromagnetic nanowire under AC magnetic fields using micromagnetic simulation. The ratchet effect for a transverse domain wall is achieved using an asymmetric magnetic potential generated by stray fields from non-contact trapezoidal ferromagnetic stubs near the straight nanowire. The ratchet phenomenon has been examined with various combinations of amplitude and frequency of the driving AC field. Interestingly, we find that the domain wall propagates along a preferential direction by the diode-like ratchet effect under AC field. The propagation of the domain wall strongly depends on the profile of the asymmetrical magnetic potentials and the driving AC field characteristics.

AB - We investigate a ratchet effect of magnetic domain wall motion in a ferromagnetic nanowire under AC magnetic fields using micromagnetic simulation. The ratchet effect for a transverse domain wall is achieved using an asymmetric magnetic potential generated by stray fields from non-contact trapezoidal ferromagnetic stubs near the straight nanowire. The ratchet phenomenon has been examined with various combinations of amplitude and frequency of the driving AC field. Interestingly, we find that the domain wall propagates along a preferential direction by the diode-like ratchet effect under AC field. The propagation of the domain wall strongly depends on the profile of the asymmetrical magnetic potentials and the driving AC field characteristics.

UR - https://www.scopus.com/pages/publications/81155145957

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DO - 10.1063/1.3658805

M3 - Article

AN - SCOPUS:81155145957

SN - 0003-6951

VL - 99

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 19

M1 - 192512

ER -

Ratchet effect of the domain wall by asymmetric magnetostatic potentials

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