Articles you may be interested inEffect of deposition interruption and substrate bias on the structure of sputter-deposited yttria-stabilized zirconia thin films Structure and magnetic properties of Co grown on yttria-stabilized cubic zirconia substrates J. Appl. Phys. 91, 7197 (2002); 10.1063/1.1448802Laser-stimulated luminescence of yttria-stabilized cubic zirconia crystalsEvaluation of crystalline quality of heteroepitaxial yttriastabilized zirconia films on silicon by means of ion beam channeling
Conditions are given for the epitaxial growth of YIG on YAG and GdIG on YAG. The films are identified and characterized by x-ray, electron diffraction, electron microprobe, and magneto-optic studies.
The properties of cylindrical domains in wafers of bulk single crystals of various magnetic oxides have been extensively studied and described in recent months. Mobile cylindrical domains have been produced in single-crystal thin films of gallium-substituted yttrium iron garnet. The deposits are formed by chemical vapor deposition onto nonmagnetic garnet substrates greater than 1 cm2 in area. A model of magnetic anisotropy in epitaxial films is proposed and shown to be in good agreement with experimental domain observations. In a typical sample, a domain diameter of 8 μ is observed in a 6-μ-thick film at a bias field of 25 Oe. From the domain translational velocity of 5600 cm/sec, a cylindrical domain mobility of 1500 cm/sec Oe has been calculated. A fractional change in cylindrical domain diameter of −0.07%/°K has been measured at 300°K. Annealing at 1570°K for several hours did not alter the Néel temperature or the optical transmission spectrum.
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