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Thin Film Recording Media

Published online by Cambridge University Press:  29 November 2013

Jack H. Judy
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The rapidly growing demand for magnetic information storage systems at lower cost and higher capacity has driven the magnetic recording industry to accelerate development of thin film magnetic recording media. The ultimate recording density depends on the bit transition lengths, as shown in Figure 1 for various media, and on signal-to-noise ratio, which is proportional to the number of particles per bit. Longitudinal thin film media bit transition lengths are limited by thickness, magnetic properties, and zig-zag magnetic domain microstructures at the transitions, whereas in perpendicular media the principal limitation is the diameter of the grains. The recent development of quasi-particulate longitudinal and perpendicular thin film media indicates that areal bit densities substantially exceeding 109 bits/inch2 will be achieved in the future.

This article will review magnetic phenomena relevant to thin film recording media, describe macromagnetic and micromagnetic characterization techniques, survey the development of state-of-the-art thin film media, correlate micromagnetics with magnetic properties, media noise, and recording performance, and discuss future requirements of longitudinal and perpendicular thin film recording media.

Ferromagnetic and ferrimagnetic thin films exhibit a nonlinear, multivalued, and hysteretic relationship between the magnetic dipole moments per volume or magnetization M and the magnetizing field intensity H as shown in Figure 2 for the component of M in the direction of H.

Type
Magnetic Recording Materials
Information
MRS Bulletin , Volume 15 , Issue 3 , March 1990 , pp. 63 - 72
Copyright
Copyright © Materials Research Society 1990

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References

1.Suzuki, T., IEEE Trans. Magn. 24 (1984) p. 675680.CrossRefGoogle Scholar
2.Mallinson, J.C., The Foundations of Magnetic Recording (Academic Press, San Diego, California, 1987).Google Scholar
3.Cullity, B.D., Introduction to Magnetic Materials (Addison-Wesley, Reading, Massachusetts, 1972).Google Scholar
4.Jorgenson, F., The Complete Handbook of Magnetic Recording (TAB Books, Blue Ridge Summit, PA, 1988).Google Scholar
5.Mee, C.D. and Daniel, E.D., Magnetic Recording, Vols. I and II (McGraw-Hill, New York, 1987).Google Scholar
6.Howard, J.K., J. Vac. Sci. Technol. A4 (1986) p. 113.CrossRefGoogle Scholar
7.Arnoldussen, T.C., Proc. IEEE 74 (1986) p. 15261539.CrossRefGoogle Scholar
8.Prutton, M., Thin Ferromagnetic Films (Butterworths, Washington, DC, 1964).Google Scholar
9.Williams, H.S., Bozorth, R.M., and Shockley, W., Phys. Rev. 75 (1949) p. 155178.CrossRefGoogle Scholar
10.Wouri, E. and Judy, J., J. Appl. Phys. 57 (1985) p. 40104012; B. Webb and S. Schultz, IEEE Trans. Magn. 24 (1988) p. 3006-3008.CrossRefGoogle Scholar
11.Jakubovics, J.P., in Electron Microscopy in Materials Science Part IV, edited by Ruedel, E. and Valdre, U. (1973) p. 1305.Google Scholar
12.Yoshida, K., Okuwaki, T., Osakabe, N., Tanabe, H., Horiuchi, Y., Matsuda, T., Shinagawa, K., Tonomura, I., and Fujiwara, H., IEEE Trans. Magn. MAG-19 (1983) p. 16001605.CrossRefGoogle Scholar
13.Chapman, J.N., J. Phys. D 17 (1984) p. 623.Google Scholar
14.McFadyen, I.R., J. Appl. Phys. 64 (1988) p. 60116013.CrossRefGoogle Scholar
15.Pierce, D.T., Unguris, J., and Celotta, R.J., MRS Bulletin 13 (6) (1988) p. 1923.CrossRefGoogle Scholar
16.Rugar, D., Mamin, H., Stern, J., Fontana, R. Jr., Kasiraji, P., McFadyen, I., and Lambert, S., Intermag. Conf. (1989) KB4.Google Scholar
17.Zapponi, P. P., U.S. Patent No. 2 619 454 (1952).CrossRefGoogle Scholar
18.Bonn, T.H. and Wendell, D.C. Jr., U.S. Patent No. 2 644 787 (1953).Google Scholar
19.Brenner, A. and Riddell, G.E., J. Res. Nat. Bur. Stand. 37 (1946) p. 3134.CrossRefGoogle Scholar
20.Fisher, R.D. and Chilton, W.H., J. Electrochem. Soc. 100 (1962) p. 485490.CrossRefGoogle Scholar
21.Judge, J., Morrison, J., Speliotis, D., and Bate, G., J. Electrochem. Soc. 112 (1965) p. 681684.CrossRefGoogle Scholar
22.Bate, G., Speliotis, D., Alstad, J., and Morrison, J., Proc. Int. Conf. Magnetism, Nottingham, England (1964) p. 816819.Google Scholar
23.Suganuma, Y., Tanaka, H., Yanagisawa, M., Goto, F., and Hatano, S., IEEE Trans. Magn. MAG-18 (1982) p. 12151220.CrossRefGoogle Scholar
24.Yoshida, K., Yamashita, T., and Saito, M., J. Appl. Phys. 64 (1988) p. 270275.CrossRefGoogle Scholar
25.Sugaya, H. and Tomago, A., Magnetic Media Information Service Symposium, Honolulu, Hawaii (May 25, 1984).Google Scholar
26.Shinohara, K., Yoshida, H., Odagiri, M., and Tomago, A., IEEE Trans. Magn. MAG-20 (1984) p. 824827.CrossRefGoogle Scholar
27.Comstock, R.L. and Moore, E.B., IBM J. Res. & Dev. 18 (1974) p. 556562.CrossRefGoogle Scholar
28.Inagaki, N., Hattori, S., Ishii, Y., Terda, A., and Katsuraki, H., IEEE Trans. Magn. MAG-12 (1976) p. 785787.CrossRefGoogle Scholar
29.Yoshii, S., Ishii, O., Hattori, S., Nakagawa, T., and Ishida, G., J. Appl. Phys. 53 (1982) p. 25562560.CrossRefGoogle Scholar
30.Yanagisawa, M., Shiota, N., Yamaguichi, H., and Suganuma, Y., IEEE Trans. Magn. MAG-19 (1983) p. 16381640.CrossRefGoogle Scholar
31.Baugh, R.A., Murdock, E.S., and Natarajan, B.R., IEEE Trans. Magn. MAG-19 (1983) p. 17221724.CrossRefGoogle Scholar
32.Lazzari, J.P., Melnick, I., and Randet, D., IEEE Trans. Magn. MAG-3 (1967) p. 205207.CrossRefGoogle Scholar
33.Daval, J. and Randet, D., IEEE Trans. Magn. MAG-6 (1970) p. 768773.CrossRefGoogle Scholar
34.Maloney, W.T., IEEE Trans. Magn. MAG-15 (1979) p. 11351138.CrossRefGoogle Scholar
35.Yamada, T., Tani, N., Ishikawa, M., Ota, Y., Nakamura, K., and Itoh, A., IEEE Trans. Magn. MAG-21 (1985) p. 14291431.CrossRefGoogle Scholar
36.Fisher, R.D., Allan, J.C., and Pressesky, J.L., IEEE Trans. Magn. MAG-22 (1986) p. 352354.CrossRefGoogle Scholar
37.Christner, J.A., Ranjan, R., Peterson, R.L., and Lee, J.I., J. Appl. Phys. 63 (1988) p. 32603262.CrossRefGoogle Scholar
38.Shiroishi, Y., Matsuda, Y., Yoshida, K., Suzuki, H., Ohno, T., Tsumita, N., Ohura, M., and Hayashi, M., IEEE Trans. Magn. 24 (1988) p. 27302732.CrossRefGoogle Scholar
39.Natarajan, B.R. and Murdock, E.S., IEEE Trans. Magn. 24 (1988) p. 27242726.CrossRefGoogle Scholar
40.Tani, N., Hashimoto, M., Murata, Y., Ishikawa, M., Ota, Y., and Nakamura, K., Intermag. Conf. (1989) HA8.Google Scholar
41.Shiroishi, Y., Matsuda, Y., Hishiyama, S., Suzuki, H., Ohno, T., and Yahisa, Y., IEEE Trans. Magn. 25 (1989) p. 33903392.CrossRefGoogle Scholar
42.Hsu, Y., Sivertsen, J.M., and Judy, J.H., Proc. PMRC'89, J. Mag. Soc. Japan 13, Sup. No. S1 (1989) p. 651656.Google Scholar
43.Iwasaki, S., Nakamura, Y., and Ouchi, K., IEEE Trans. Magn. MAG-15 (1979) p. 14561458.CrossRefGoogle Scholar
44.Iwasaki, S. and Nakamura, Y., IEEE Trans. Magn. MAG-14 (1978) p. 12721279.Google Scholar
45.Osaka, T., Koiwa, I., Okabe, Y., Matsubara, H., Wada, A., Goto, F., and Shiota, N., Bulletin Chem. Soc. Japan 58 (1985) p. 414419.CrossRefGoogle Scholar
46.Yamamoto, S., Nakamura, Y., and Iwasaki, S., IEEE Trans. Magn. MAG-23 (1987) p. 20702072.CrossRefGoogle Scholar
47.Sugita, R., Nambu, T., and Sakamoto, Y., IEEE Trans. Magn. MAG-23 (1987) p. 24492454.CrossRefGoogle Scholar
48.Kitakami, O., Ogawa, Y., Fujiwara, H., Kugiya, F., and Suzuki, M., IEEE Trans. Magn. 24 (1988) p. 23532355.CrossRefGoogle Scholar
49.Honda, K., Sugita, R., Echigo, N., Sakamoto, Y., and Murakami, Y., IEEE Trans. Magn. MAG-24 (1988) p. 26642666.CrossRefGoogle Scholar
50.Ouchi, K., IEEE Trans. Magn. MAG-23 (1987) p. 24432448.CrossRefGoogle Scholar
51.Dressier, D. and Judy, J.H., IEEE Trans. Magn. MAG-10 (1974) p. 674677.CrossRefGoogle Scholar
52.Chen, T., IEEE Trans. Magn. MAG-17 (1981) p. 11811191.CrossRefGoogle Scholar
53.Tong, H.C., Ferrier, R., Chang, P., Tzeng, J., and Parker, K.L., IEEE Trans. Magn. MAG-20 (1984) p. 18311833.CrossRefGoogle Scholar
54.Belk, N.R., George, P.K., and Mowry, G.S., IEEE Trans. Magn. MAG-21 (1985) p. 13501355.CrossRefGoogle Scholar
55.Alexopoulos, P.S. and Geiss, R.H., IEEE Trans. Magn. MAG-22 (1986) p. 566569.CrossRefGoogle Scholar
56.Aoi, H., Saitoh, M., Nishiyama, N., Tsuchiya, R., and Tamura, T., IEEE Trans. Magn. MAG-22 (1986) p. 895897.CrossRefGoogle Scholar
57.Aoi, H., Tsuchiya, R., Shiroishi, Y., and Matsuyama, H., IEEE Trans. Magn. 24 (1988) p. 27152717.CrossRefGoogle Scholar
58.Nguyen, T.A., Alexopoulos, P.S., Huang, C., Lambert, S.E., and Sanders, I., IEEE Trans. Magn. 24 (1988) p. 27332735.CrossRefGoogle Scholar
59.Yogi, T., Gorman, G., Hwang, C., Kakalec, M., and Lambert, S., IEEE Trans. Magn. 24 (1988) p. 27272729.CrossRefGoogle Scholar
60.Zhu, J.G. and Bertram, H.N., J. Appl. Phys. 63 (1988) p. 32483253.CrossRefGoogle Scholar
61.Ferrier, R.P., Martin, F.J., Arnoldussen, T.C., and Nunnelley, L., IEEE Trans. Magn. 24 (1988) p. 27092711.CrossRefGoogle Scholar
62.Chen, T. and Yamashita, T., IEEE Trans. Magn. 24 (1988) p. 27002705.CrossRefGoogle Scholar
63. IBM, Alamden Research Center, San Jose, CA (December, 1989).Google Scholar
64.Yanagisawa, M. and Motomura, Y., Lubrications Eng. 43 (1987) p. 5256.Google Scholar
65.Mate, C., Lorenz, M., Novotny, V., Sanders, I., and Lin, L., Intermag. Conf. (1989) GA7.Google Scholar
66.Marchon, B., Heiman, N., and Khan, M.R., Proc. Int. Conf. on Magnetic Recording Media (1989) Rimini, Italy.Google Scholar
67.Torng, C.J., Sivertsen, J.M., and Judy, J.H., Proc. PMRC '89, J. Mag. Soc. Japan 13, Sup. No. S1 (1989) p. 169174.Google Scholar