Characterization of Superparamagnetic Particles Mobility by On-Chip Micromagnets

Sandhya Rani Goudu; Xinghao Hu; Byeonghwa Lim; Kunwoo Kim; Keonmok Kim; Hyeonseol Kim; Jonghwan Yoon; Cheol Gi Kim

doi:10.1109/TMAG.2018.2814819

Characterization of Superparamagnetic Particles Mobility by On-Chip Micromagnets

Sandhya Rani Goudu, Xinghao Hu, Byeonghwa Lim, Kunwoo Kim, Keonmok Kim, Hyeonseol Kim, Jonghwan Yoon, Cheol Gi Kim

Department of Physics and Chemistry

Daegu Gyeongbuk Institute of Science and Technology

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

3 Scopus citations

Abstract

We fabricate on-chip micromagnets using Ni₈₀Fe₂₀ and Co₇₀Fe₃₀ materials for the characterization of mobility of superparamagnetic particles. The maximum velocity of the particles around the periphery of the micromagnets is determined by the critical frequency, which indicates that the particle enters the phase-slipping regime from the phase-locked regime. The maximum velocity of NiFe micromagnets is approximately 3 times larger than that of CoFe micromagnets measured at the low field regions. Moreover, the maximum velocity of the particles is decreasing with increasing the thickness of Teflon coating on the micromagnets, which is in a good agreement with the variation of the magnetostatic potential energy evaluated numerically from micromagnetic simulations.

Original language	English
Article number	4700204
Journal	IEEE Transactions on Magnetics
Volume	54
Issue number	6
DOIs	https://doi.org/10.1109/TMAG.2018.2814819
State	Published - Jun 2018

Bibliographical note

Publisher Copyright:
© 2018 IEEE.

Keywords

Micromagnet
micromagnetic simulation
superparamagnetic (SPM) particle
velocity

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10.1109/TMAG.2018.2814819

Cite this

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title = "Characterization of Superparamagnetic Particles Mobility by On-Chip Micromagnets",

abstract = "We fabricate on-chip micromagnets using Ni80Fe20 and Co70Fe30 materials for the characterization of mobility of superparamagnetic particles. The maximum velocity of the particles around the periphery of the micromagnets is determined by the critical frequency, which indicates that the particle enters the phase-slipping regime from the phase-locked regime. The maximum velocity of NiFe micromagnets is approximately 3 times larger than that of CoFe micromagnets measured at the low field regions. Moreover, the maximum velocity of the particles is decreasing with increasing the thickness of Teflon coating on the micromagnets, which is in a good agreement with the variation of the magnetostatic potential energy evaluated numerically from micromagnetic simulations.",

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author = "Goudu, {Sandhya Rani} and Xinghao Hu and Byeonghwa Lim and Kunwoo Kim and Keonmok Kim and Hyeonseol Kim and Jonghwan Yoon and Kim, {Cheol Gi}",

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AU - Goudu, Sandhya Rani

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AU - Lim, Byeonghwa

AU - Kim, Kunwoo

AU - Kim, Keonmok

AU - Kim, Hyeonseol

AU - Yoon, Jonghwan

AU - Kim, Cheol Gi

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AB - We fabricate on-chip micromagnets using Ni80Fe20 and Co70Fe30 materials for the characterization of mobility of superparamagnetic particles. The maximum velocity of the particles around the periphery of the micromagnets is determined by the critical frequency, which indicates that the particle enters the phase-slipping regime from the phase-locked regime. The maximum velocity of NiFe micromagnets is approximately 3 times larger than that of CoFe micromagnets measured at the low field regions. Moreover, the maximum velocity of the particles is decreasing with increasing the thickness of Teflon coating on the micromagnets, which is in a good agreement with the variation of the magnetostatic potential energy evaluated numerically from micromagnetic simulations.

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KW - velocity

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Characterization of Superparamagnetic Particles Mobility by On-Chip Micromagnets

Abstract

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Keywords

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