Large Faraday effect in a short wavelength range for disordered zinc ferrite thin films | Zendy

Katsuhisa Tanaka | Zendy; S. Nakashima | Zendy; Koji Fujita | Zendy; Kazuyuki Hirao | Zendy

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Large Faraday effect in a short wavelength range for disordered zinc ferrite thin films

Author(s) -

Katsuhisa Tanaka,

S. Nakashima,

Koji Fujita,

Kazuyuki Hirao

Publication year - 2006

Publication title -

journal of applied physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.699

H-Index - 319

eISSN - 1089-7550

pISSN - 0021-8979

DOI - 10.1063/1.2199727

Subject(s) - faraday effect , thin film , ferrimagnetism , materials science , zinc ferrite , ferrite (magnet) , magnetization , sputtering , wavelength , faraday cage , substrate (aquarium) , condensed matter physics , magnetic field , optics , zinc , optoelectronics , composite material , metallurgy , nanotechnology , physics , quantum mechanics , oceanography , geology

We have prepared a zinc ferrite (ZnF[2]O[4])thin film85nm thick deposited on a silica glass substrate by using a radio frequency sputtering method. Faraday effect measurements have been carried out not only for as-deposited but also for annealedthin films. The thin filmannealed at 300°C as well as the as-deposited thin film exhibit a large Faraday rotation angle at a wavelength of around 390nm. In particular, the thin filmannealed at 300°C manifests the largest Faraday effect among the present thin films; the rotation angle of 1.65°/μm is attained at a wavelength of 386nm. The thin films1.08μm thick exhibit a large magnetization at room temperature, and the dependence of the magnetization on the external magnetic field is suggestive of a ferrimagnetic behavior

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