@article{oai:nitech.repo.nii.ac.jp:00004109,
 author = {Gomi, Manabu},
 issue = {1154},
 journal = {Journal of the Ceramic Society of Japan},
 month = {Oct},
 note = {本論文では,最初に磁気光学効果の現象論,微視的理論を簡単に概観し,磁気光学的応用に有用な磁性薄膜の作製及び磁気光学的性質に関する最近の研究を紹介する.そこでは,薄膜へのBi^<3+>のようなイオンの多量置換が磁気光学効果を増大させるのに重要であることが強調され,この多量置換はスパッタ法のような熱的非平衡下で膜を作製することにより達成されることが述べられる.本論文で取り扱われた磁気光学用薄膜材料は,Bi及び軽希土類置換ガーネットフェライト,Co^<2+>を含むスピネル及び六方晶フェライト,磁性半導体,強磁性金属である. Some recent works on preparation and magneto-optical (MO) properties of magnetic thin films useful for MO applications are reviewed after briefly outlining phenomenological and microscopic theory of MO effect. It is emphasized that high substitution of specific ions such as Bi^<3+> to the film is important to strongly enhance the MO effect. This is achieved by making the film under thermally non-equilibrium state such as sputtering method. The classes of the MO thin films discussed are Bi- and light rare earth ions-substituted garnet ferrites, spinel and hexagonal ferrites containing CO^<2+>, magnetic semiconductor and ferromagnetic metals., application/pdf},
 pages = {852--861},
 title = {Thin Films for Magneto-Optical Applications : Thin Film},
 volume = {99},
 year = {1991}
}