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Microstructure and magnetic properties of granularFePt/(FePt)_(27)Ti_(73) films for ultrahigh-density recording media 被引量:2
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作者 于红云 孙会元 +4 位作者 封顺珍 高凤菊 周鸿娟 聂向富 孙玉平 《Journal of Central South University of Technology》 2005年第2期155-158,共4页
FePt granular films were prepared by direct current facing-target magnetron sputtering system onto glass substrates and subsequently in-situ annealed in vacuum. Vibrating sample magnetometer, X-ray diffraction and sca... FePt granular films were prepared by direct current facing-target magnetron sputtering system onto glass substrates and subsequently in-situ annealed in vacuum. Vibrating sample magnetometer, X-ray diffraction and scanning probe microscope were applied to study the magnetic properties, microstructures, morphologies and domain structures of the samples. (FePt)27Ti73 bilayer films were fabricated at various conditions to investigate the effect of Ti on FePt grains. The results show that without Ti matrix layer, FePt films deposited onto the glass substrates are fcc disordered; with addition of Ti matrix layer, FePt/Ti films form a ternary (FePt)27Ti73 alloy possessing fcc and L10 (111) mixed texture. FePt/(FePt)27Ti73 films with perfectly ordered L10(111) structure and unique magnetic properties can be obtained at Ti thickness of 35nm and substrate temperature of 250℃. The maximum coercivity is more than 240kA/m and the squareness ratio is more than 0.9. The obtained results suggest that the granular FePt/(FePt)27Ti73 films can be applicable to ultrahigh-density magnetic recording media. 展开更多
关键词 FePt magnetic layer ordered L1_0 structure facing-target magnetron sputtering system magnetic (recording) media
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