Abstract
This chapter will review the source of knowledge in basic science and industry for this book. The electromagnetism developed in eighteenth and nineteenth centuries are one of the forerunners for micromagnetics. The mathematical expression, such as vector algebra, of Maxwell’s equations will be discussed in Chap. 2. The fundamental magnetism is usually treated as part of the Solid State Physics. The quantum physics of materials and parameters used in micromagnetics will be given by the fundamental magnetism, thus this part will also be reviewed here. From the very beginning of the micromagnetics, it has been focusing on the magnetic recording industry. Therefore the key developments of the magnetic materials and devices utilized in magnetic information storage industry will be also summarized here.
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Maxwell, J.C.: A Treatise on Electricity and Magnetism (1873), translated by Ge G. into Chinese. Wuhan Press, Wuhan (1994)
Daniel, E.D., Mee, C.D., Clark, M.H.: Magnetic Recording—The First 100 Years. IEEE Press, New York (1999)
Bertram, H.N.: Theory of Magnetic Recording. Cambridge University Press, Cambridge (1994)
Wei, D.: Fundamentals of Electric, Magnetic, Optic Materials and Devices (in chinese), 2nd edn. Science Press, Beijing (2009)
von Laue M.: Geschichte der Physik (1950), translated by Fan D.N. and Dai N.Z. into Chinese. Commercial Press, Beijing (1978)
Wei, D.: Solid State Physics. Cengage Learning, Singapore (2008)
Zhang, X.G., Butler, W.H.: Large magnetoresistance in bcc Co/MgO/Co and FeCo/MgO/FeCo tunnel junctions. Phys. Rev. B 70, 172407 (2004)
Iwasaki, S., Nakamura, Y., Ouchi, K.: Perpendicular magnetic recording with a composite anisotropy film. IEEE. Trans. Magn. 15(6), 1456–1458 (1979)
Iwasaki, S.: Perpendicular magnetic recording. IEEE. Trans. Magn. 16(1), 71–76 (1980)
Oikawa, T., Nakamura, M., Uwazumi, H., Shimatsu, T., Muraoka, H., Nakamura, Y.: Microstructure and magnetic properties of CoPtCr-SiO\(_2\) perpendicular recording media. IEEE. Trans. Magn. 38(5), 1976–1978 (2002)
Chiu, A., Croll, I., Heim, D.E., Jones, Jr, R.E., Kasiraj, P., Klaassen, K.B., Mee, C.D., Simmons, R.G.: Thin-film inductive heads. IBM J. Res. Dev. 40(3), 283–300 (1996)
Hunt, R.P.: A magnetoresistive readout transducer. IEEE Trans. Magn. 7(1), 150–154 (1971)
McGuire, T.R., Potter, R.I.: Anisotropic magnetoresistance in ferromagnetic 3d alloys. IEEE. Trans. Magn. 11(4), 1018–1038 (1975)
Smith, N.: Micromagnetic analysis of a coupled thin-film self-biased magnetoresistive sensor. IEEE. Trans. Magn. 23(1), 259–272 (1987)
Tsang, C., Fontana, R.E., Lin, T., Heim, D.E., Seriosu, V.S., Gurney, B.A., Williams, M.L.: Design, fabrication and testing of spin-valve read heads for high density recording. IEEE. Trans. Magn. 30(6), 3801–3806 (1994)
Baibich, M.N., Broto, J.M., Fert, A., Nguyen van Dau, F., Petroff, F., Eitenne, P., Creuzet, G., Friederich, A., Chazelas, J.: Giant magnetoresistance of (001)Fe/(001)Cr magnetic superlattices. Phys. Rev. Lett. 61(21), 2472–2475 (1988)
Binasch, G., Grünberg, P., Saurenbach, F., Zinn, W.: Enhanced magnetoresistance in layered magnetic structures with antiferromagnetic interlayer exchange. Phys. Rev. B 39(7), 4828–4830 (1989)
Ruderman, M.A., Kittel, C.: Indirect exchange coupling of nuclear magnetic moments by conduction electrons. Phys. Rev. 96, 99–102 (1954)
Dieny, B., Speriosu, V.S., Parkin, S.S.P., Gurney, B.A., Wilhoit, D.R., Mauri, D.: Giant magnetoresistance in soft ferromagnetic multilayers. Phys. Rev. B 43(1), 1297–1300 (1991)
Okada, T., Nunokawa, I., Mochizuki, M., Hatatani, M., Kimura, H., Etoh, K., Fuyama, M., Nakamoto, K.: Newly developed wraparound-shielded head for perpendicular recording. IEEE. Trans. Magn. 41(10), 2899–2901 (2005)
Mao, S., Linville, E., Nowak, J., Zhang, Z., Chen, S., Karr, B., Anderson, P., Ostrowski, M., Boonstra, T., Cho, H., Heinonen, O., Kief, M., Xue, S., Price, J., Shukh, A., Amin, N., Kolbo, P., Lu, P.L., Steiner, P., Feng, Y.C., Yeh, N.H., Swanson, B., Ryan, P.: IEEE. Trans. Magn. 40(1), 307 (2004)
Moodera, J.S., Kinder, L.R., Wong, T.M., Meservey, R.: Large magnetoresistance at room termperature in ferromagnetic thin film tunnel junctions. Phys. Rev. Lett. 74(16), 3273–3276 (1995)
Miyazaki, T., Tezuka, N.: Giant magnetic tunneling effect in Fe/Al\(_2\)O\(_3\)/Fe junction. J. Magn. Magn. Mater. 139, L231–L234 (1995)
Parkin, S.S.P., Kaiser, C., Panchula, A., Rice, P.M., Hughes, B., Samant, M., Yang, S.H.: Giant tunnelling magnetoresistive at room temperature with MgO (100) tunnel barriers. Nat. Mater. 3, 862–867 (2004)
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Wei, D. (2012). Exordium. In: Micromagnetics and Recording Materials. SpringerBriefs in Applied Sciences and Technology. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-28577-6_1
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DOI: https://doi.org/10.1007/978-3-642-28577-6_1
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