MAGNETIC AND MAGNETOOPTICAL PROPERTIES OF RAPID THERMAL ANNEALING GLASS/AL/BIGADYIG DOUBLE-LAYER FILMS

Abstract

The rapid thermal annealing method is used to crystallize a glass/Al/BiGaDyIG double-layer film (where BiGaDyIG denotes dysprosium iron garnet films doped with Bi and Ga); the effective Faraday angle of the double-layer film is about 0.25 degrees greater than that for glass/BiGaDyIG film and about 0.15 degrees greater than that for common glass/BiGaDyIG/Al double films in a nide thickness range; meanwhile the Curie point is decreased because of the aluminium atoms diffusing into the garnet film and substituting at octahedral and tetrahedral Fe3+ sites. The Curie temperature can be adjusted between 161 and 140 degrees C by means of delay annealing duration. The grain diameter and Faraday angle as functions of heating rate alpha and number of rapid recurrent annealings N have been presented, and are used to explain the mechanism of effective Faraday angle increase and grain size decrease, suggesting that glass/Al/BiGaDyIG films are promising candidates for blue light magneto-optical recording disks.