Measuring and understanding write width and off-track as a function of linear density in perpendicular recording

Fernandez-de-Castro, J.; Sandler, G. M.; Hurben, M.J.; Lu, Peilin; Curland, N.

doi:10.1063/1.3673844

Cited by 7 publications

(2 citation statements)

References 6 publications

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“…The magnetic flux from the wide DC background and the reverse DC track in the center creates reader sensitivity variation and track edge noise. [10][11][12][13][14] This convolution could impact the accuracy of the test. The reverse DC band (reversing multiple tracks) with a width wider than twice the reader width and spacing smaller than track width was proposed to mitigate the convoluted noise profile as shown in Figs.…”

Section: Resultsmentioning

confidence: 99%

Magnetic write field characterization in heat-assisted magnetic recording systems

Kampun

Lekawat

Tongsomporn³

2020

Jpn. J. Appl. Phys.

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Magnetic write field is a critical factor in determining the quality of the magnetic write transitions, which determine the linear density (LD) limit in heat-assisted magnetic recording (HAMR). We introduce a reversed DC band approach as a simple, no extra-hardware-Required technique in a spin-stand to assess the magnetic write field ( ) contributions, independently in an HAMR system. Heads with different distances between near-field transducer and writer pole, and media with and without soft magnetic under layer were characterized. The estimated result strongly correlates with LD and signal-to-noise ratio, which agrees with previous modeling studies. These results give insight into the head/component required to optimize the HAMR’s system performance. The technique provides qualitative ranking of magnetic write fields and recording temperature, as well as laser operating current at Curie temperature for head/component designs.

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Section: Resultsmentioning

confidence: 99%

Magnetic write field characterization in heat-assisted magnetic recording systems

Kampun

Lekawat

Tongsomporn³

2020

Jpn. J. Appl. Phys.

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“…Track-scan and WPE (write plus erase) tests have proven to be effective in this regard. 10) However, both approaches have a read-back phenomenon effect that causes convolution-related corruption. 11,12) The NFT, which concentrates light to spot sizes well below the optical diffraction limit, is one of the key fundamental challenges for HAMR development.…”

Section: Introductionmentioning

confidence: 99%

Track width measurement in heat-assisted magnetic recording systems using the cross-track DC noise method

Kampun¹,

Lekawat²,

Tongsomporn³

2022

Jpn. J. Appl. Phys.

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This paper uses a cross-track DC noise measurement technique to determine the written track width in heat-assisted magnetic recording (HAMR). The method is approached as a simple, no-extra-hardware-required technique on a spin-stand to determine the written track width as well as the DC noise amplitude at the center track in a HAMR system. The track width data show the expected trends with changing laser operating current (I_op) and write current (I_w), and they are strongly correlated with track density (TD) capabilities and physical near-field transducer (NFT) Peg width. The written track width is essentially defined by the I_op, which increases as I_op increases. The method is useful for comparing the magnetic responses of different writer pole or NFT Peg geometries, as well as media design comparison to provide insight into the head/component necessary to improve HAMR system performance, which is useful HAMR recording parameters for head/media designers and test engineers.

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Impact of Background Interference on Signal-to-Noise Ratio in Heat-Assisted Magnetic Recording

Kaitwanidvilai

Chaiduangsri

Tongsomporn³

2018

IEEE Magn. Lett.

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Measuring and understanding write width and off-track as a function of linear density in perpendicular recording

Cited by 7 publications

References 6 publications

Magnetic write field characterization in heat-assisted magnetic recording systems

Magnetic write field characterization in heat-assisted magnetic recording systems

Track width measurement in heat-assisted magnetic recording systems using the cross-track DC noise method

Impact of Background Interference on Signal-to-Noise Ratio in Heat-Assisted Magnetic Recording

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