Magnetic Readout Head Using Induced RF Permeability Variation in Ni-Fe Film

J. Akiyama; H. Iwasaki; S. Yatabe; S. Chiba

doi:10.1109/TJMJ.1987.4549417

Magnetic Readout Head Using Induced RF Permeability Variation in Ni-Fe Film

J. Akiyama, H. Iwasaki, S. Yatabe, S. Chiba

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

Abstract

A novel principle of magnetic readout is proposed which can extract a high-quality output from high-density recorded signals. The principle utilizes sharp RF permeability changes in a soft magnetic film due to a weak external field. This variation is caused by both magnetization rotation and ferromagnetic resonance. A magnetic readout head which operates on this novel principle has been trial-fabricated. The prototype head was evaluated using sinusoidal signals (0.5 to 10 MHz) which were saturation-recorded on a magnetic tape with a ferrite ring head (head gap 0.3 µm, track width 100 µm). The signal level reproduced at 0.5 MHz by the prototype head was at least 35.7 dB higher than that from a ring head, and for 5-MHz signals the output was from 17.6 to 22.5 dB higher. The carrier-to-noise ratio for a 5 MHz carrier (1 µm wavelength) was from 44 to 4 7 dB, and was independent of the Ni-Fe film thickness.

Original language	English
Pages (from-to)	297-303
Number of pages	7
Journal	IEEE Translation Journal on Magnetics in Japan
Volume	2
Issue number	4
DOIs	https://doi.org/10.1109/TJMJ.1987.4549417
Publication status	Published - 1987 Apr
Externally published	Yes

ASJC Scopus subject areas

Engineering (miscellaneous)
Engineering(all)

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10.1109/TJMJ.1987.4549417

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title = "Magnetic Readout Head Using Induced RF Permeability Variation in Ni-Fe Film",

abstract = "A novel principle of magnetic readout is proposed which can extract a high-quality output from high-density recorded signals. The principle utilizes sharp RF permeability changes in a soft magnetic film due to a weak external field. This variation is caused by both magnetization rotation and ferromagnetic resonance. A magnetic readout head which operates on this novel principle has been trial-fabricated. The prototype head was evaluated using sinusoidal signals (0.5 to 10 MHz) which were saturation-recorded on a magnetic tape with a ferrite ring head (head gap 0.3 µm, track width 100 µm). The signal level reproduced at 0.5 MHz by the prototype head was at least 35.7 dB higher than that from a ring head, and for 5-MHz signals the output was from 17.6 to 22.5 dB higher. The carrier-to-noise ratio for a 5 MHz carrier (1 µm wavelength) was from 44 to 4 7 dB, and was independent of the Ni-Fe film thickness.",

author = "J. Akiyama and H. Iwasaki and S. Yatabe and S. Chiba",

year = "1987",

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AU - Akiyama, J.

AU - Iwasaki, H.

AU - Yatabe, S.

AU - Chiba, S.

PY - 1987/4

Y1 - 1987/4

N2 - A novel principle of magnetic readout is proposed which can extract a high-quality output from high-density recorded signals. The principle utilizes sharp RF permeability changes in a soft magnetic film due to a weak external field. This variation is caused by both magnetization rotation and ferromagnetic resonance. A magnetic readout head which operates on this novel principle has been trial-fabricated. The prototype head was evaluated using sinusoidal signals (0.5 to 10 MHz) which were saturation-recorded on a magnetic tape with a ferrite ring head (head gap 0.3 µm, track width 100 µm). The signal level reproduced at 0.5 MHz by the prototype head was at least 35.7 dB higher than that from a ring head, and for 5-MHz signals the output was from 17.6 to 22.5 dB higher. The carrier-to-noise ratio for a 5 MHz carrier (1 µm wavelength) was from 44 to 4 7 dB, and was independent of the Ni-Fe film thickness.

AB - A novel principle of magnetic readout is proposed which can extract a high-quality output from high-density recorded signals. The principle utilizes sharp RF permeability changes in a soft magnetic film due to a weak external field. This variation is caused by both magnetization rotation and ferromagnetic resonance. A magnetic readout head which operates on this novel principle has been trial-fabricated. The prototype head was evaluated using sinusoidal signals (0.5 to 10 MHz) which were saturation-recorded on a magnetic tape with a ferrite ring head (head gap 0.3 µm, track width 100 µm). The signal level reproduced at 0.5 MHz by the prototype head was at least 35.7 dB higher than that from a ring head, and for 5-MHz signals the output was from 17.6 to 22.5 dB higher. The carrier-to-noise ratio for a 5 MHz carrier (1 µm wavelength) was from 44 to 4 7 dB, and was independent of the Ni-Fe film thickness.

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Magnetic Readout Head Using Induced RF Permeability Variation in Ni-Fe Film

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