Understanding Transition and Remanence Noise in HAMR

Yipeng Jiao; Julius Hohlfield; R. H. Victora

doi:10.1109/TMAG.2018.2841859

Understanding Transition and Remanence Noise in HAMR

Yipeng Jiao, Julius Hohlfield, R. H. Victora

Electrical and Computer Engineering

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

6 Scopus citations

Abstract

Transition noise and remanence noise are the two most important types of media noise in heat-assisted magnetic recording. We examine two methods (spatial splitting and principal components analysis) to distinguish them: both techniques show similar trends with respect to applied field and grain pitch (GP). It was also found that PW₅₀ can be affected by GP and reader design, but is almost independent of write field and bit length (larger than 50 nm). Interestingly, our simulation shows a linear relationship between jitter and PW₅₀NSR_rem, which agrees qualitatively with experimental results.

Original language	English (US)
Article number	8405760
Journal	IEEE Transactions on Magnetics
Volume	54
Issue number	11
DOIs	https://doi.org/10.1109/TMAG.2018.2841859
State	Published - Nov 2018

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Publisher Copyright:
© 1965-2012 IEEE.

Keywords

Heat-assisted magnetic recording (HAMR)
jitter
media noise
principal components analysis (PCA)

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N2 - Transition noise and remanence noise are the two most important types of media noise in heat-assisted magnetic recording. We examine two methods (spatial splitting and principal components analysis) to distinguish them: both techniques show similar trends with respect to applied field and grain pitch (GP). It was also found that PW50 can be affected by GP and reader design, but is almost independent of write field and bit length (larger than 50 nm). Interestingly, our simulation shows a linear relationship between jitter and PW50NSRrem, which agrees qualitatively with experimental results.

AB - Transition noise and remanence noise are the two most important types of media noise in heat-assisted magnetic recording. We examine two methods (spatial splitting and principal components analysis) to distinguish them: both techniques show similar trends with respect to applied field and grain pitch (GP). It was also found that PW50 can be affected by GP and reader design, but is almost independent of write field and bit length (larger than 50 nm). Interestingly, our simulation shows a linear relationship between jitter and PW50NSRrem, which agrees qualitatively with experimental results.

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KW - principal components analysis (PCA)

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Understanding Transition and Remanence Noise in HAMR

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