Experiments on microwave-assisted magnetization reversal in a submicron-scale permalloy single element with a zero-field resonance frequency of 6.3 GHz

Yukio Nozaki, Kentaro Tateishi, Kimihide Matsuyama

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5 Citations (Scopus)

Abstract

Microwave-assisted magnetization reversal (MAMR) in a submicron-scale NiFe single element with a coercive field of 200 Oe and a zero-field resonance frequency of 6.3 GHz was investigated experimentally. Efficient reduction of the switching field due to IVIAIVIR was realized at frequencies ranging from 5.9 to 6.1 GHz. At the optimal frequency, the cusp profile characteristic of IVIAIVIR was observed in the switching yield map. By using an ac magnetic field with an amplitude of 110 Oe, the switching field can be reduced to one-fourth of the coercive field.

Original languageEnglish
Article number033002
JournalApplied Physics Express
Volume2
Issue number3
DOIs
Publication statusPublished - Mar 1 2009

Fingerprint

Magnetization reversal
Permalloys (trademark)
Microwaves
microwaves
magnetization
Experiments
cusps
Magnetic fields
profiles
magnetic fields

All Science Journal Classification (ASJC) codes

  • Engineering(all)
  • Physics and Astronomy(all)

Cite this

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abstract = "Microwave-assisted magnetization reversal (MAMR) in a submicron-scale NiFe single element with a coercive field of 200 Oe and a zero-field resonance frequency of 6.3 GHz was investigated experimentally. Efficient reduction of the switching field due to IVIAIVIR was realized at frequencies ranging from 5.9 to 6.1 GHz. At the optimal frequency, the cusp profile characteristic of IVIAIVIR was observed in the switching yield map. By using an ac magnetic field with an amplitude of 110 Oe, the switching field can be reduced to one-fourth of the coercive field.",
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AU - Matsuyama, Kimihide

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AB - Microwave-assisted magnetization reversal (MAMR) in a submicron-scale NiFe single element with a coercive field of 200 Oe and a zero-field resonance frequency of 6.3 GHz was investigated experimentally. Efficient reduction of the switching field due to IVIAIVIR was realized at frequencies ranging from 5.9 to 6.1 GHz. At the optimal frequency, the cusp profile characteristic of IVIAIVIR was observed in the switching yield map. By using an ac magnetic field with an amplitude of 110 Oe, the switching field can be reduced to one-fourth of the coercive field.

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