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Co/Pd Multilayer Based Recording Layers For Perpendicular Media

Published online by Cambridge University Press:  21 March 2011

Dmitri Litvinov ,
Thomas A. Roscamp ,
Timothy Klemmer ,
Mei-Ling Wu ,
J. Kent Howard  and
Sakhrat Khizroev
Dmitri Litvinov
Affiliation:
Seagate Research, Pittsburgh, Pennsylvania 15203 E-mail:[email protected]
Thomas A. Roscamp
Affiliation:
Seagate Research, Pittsburgh, Pennsylvania 15203
Timothy Klemmer
Affiliation:
Roscamp Engineering, Woodlane Park, Colorado 80866
Mei-Ling Wu
Affiliation:
Seagate Research, Pittsburgh, Pennsylvania 15203
J. Kent Howard
Affiliation:
Seagate Research, Pittsburgh, Pennsylvania 15203
Sakhrat Khizroev
Affiliation:
Seagate Research, Pittsburgh, Pennsylvania 15203 E-mail:[email protected]
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Abstract

The results of the experimental study of CoX/Pd multilayer based recording layers for perpendicular recording media are presented. The perpendicular magnetic recording media with multilayer recording layers and high moment soft underlayers were deposited by magnetron sputtering. It is shown how a favorable microstructure of the multilayer films can be achieved by the use of the appropriate buffer layers. The effects of boron addition to the cobalt layer in a multilayer recording layer is described. The feasibility of the aging process that leads to the reduced exchange coupling in the multilayer recording layer, is demonstrated. It is shown that boron addition to the cobalt layer accelerates the aging process.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 674: Symposia T/U/V – Applications of Ferromagnetic and Optical Materials, Storage and Magnetoelectronics , 2001 , T3.9
Copyright
Copyright © Materials Research Society 2001

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References

REFERENCES

[1] Charap, S. H., IEEE Trans. on Magn. 33, 978 (1996).Google Scholar
[2] Iwasaki, S. and Nakamura, Y., IEEE Trans. on Magn. 13, 1272 (1977).Google Scholar
[3] Thompson, D. A., J. Magn. Soc. Jap. 21, 9 (1997).10.3379/jmsjmag.21.S2_9Google Scholar
[4] Khizroev, S., Kryder, M., Ikeda, Y., Rubin, K., Arnett, P., Best, M., and Thompson, D., IEEE Trans. on Magn. 35, 2544 (1999).Google Scholar
[5] Khizroev, S. and Litvinov, D., Perpendicular systems above 100 Gbit2 density, presented at Joint MMM-Intermag 2001 in San Antonio, TX; to be published in IEEE Tans. on Magn. Google Scholar
[6] Bertram, N. H. and Williams, M., IEEE Trans. on Magn. 36, 4 (1999).10.1109/20.824417Google Scholar
[7] Ho, K., Lairson, B., Kim, Y., Noyes, G., and Sun, S., IEEE Trans. on Magn. 34, 1854 (1998).10.1109/20.706725Google Scholar
[8] Takano, K., Fullerton, E., Zeltzer, G., Moser, A., and Weller, D., CoCr/Pt andCoB/Pt multilayers as perpendicular recording media, presented at MMM Conference in San Jose (1999).Google Scholar
[9] Hatwar, T. K. and Brucker, C. F., IEEE Trans. on Magn. 31, 3256 (1995).10.1109/20.490341Google Scholar
[10] Roy, A., Laughlin, D., Klemmer, T., Howard, J. K., Khizroev, S., and Litvinov, D., Seed-layer Effect on the Microstructure and Magnetic Properties of Co/PdMultilayers, presented at Joint MMM-Intermag Conference in San Antonio,TX, January 2001, to be published in IEEE Trans. Magn.Google Scholar
[11] Peng, W. and Judy, J., Co/Pd & Co/Pt Superlattice on InSn Oxide Seed Layer for Perpendicular Recording, 1999, proceedings of 15th MINT Research Review, Univeristy of Minnesota.Google Scholar