標題: 氮化矽下底層之應力狀態對SiNx/TbFeCo/SiNx之磁光三層結構磁與記錄性質的影響
The Effects of SiNx Underlayer’s Stress Status on Magnetic and Recording Properties of SiNx/TbFeCo/SiNx Trilayers
作者: 洪志蒼
Chin-Tsang Hung
謝宗雍
Dr. T. E. Shieh
材料科學與工程學系
關鍵字: 異向性;磁滯伸縮;anisotropy;magnetostriction
公開日期: 2002
摘要: 本研究主要是針對氮化矽下底層之應力狀態對於氮化矽/鋱鐵鈷/氮化矽磁光三層薄膜之磁性質與紀錄特性的影響,藉由調整沉積氮化矽下底層時的工作氣壓、氬/氮反應氣體比、與膜層厚度,我們發現當氮化矽下底層具有較大的殘餘壓應力,鋱鐵鈷磁性層會呈現較佳的垂直異向性,而且其磁滯方正性也會隨之提昇。 藉由初始磁滯曲線的分析,鋱鐵鈷薄膜的磁化翻轉機制也受氮化矽下底層應力狀態的影響。當調整工作氣壓使所沉積的氮化矽下底層產生一殘餘壓應力,鋱鐵鈷磁性層的翻轉機制會趨向於成核翻轉機制。 由記錄特性之研究中發現當下底層的氮化矽薄膜具有較大的壓應力狀態時,鋱鐵鈷紀錄層會因垂直異向性的強化而導致雜訊的下降。最後,由實驗的結果可計算出該碟片的紀錄密度可達10 Gbit/inch2。
This work studied the effects of stress statuses of SiNx underlayer on the magnetic and recording properties of SiNx/TbFeCo/SiNx trilayers. By adjusting the deposited parameters of SiNx underlayer, such as working pressure, Ar/N2 ratio, and thickness, the TbFeCo might exhibit strong perpendicular anisotropy when SiNx underlayer possessed large compressive stress. We also found that the compressive stress enhanced the coercivity squareness of TbFeCo. The observation of initial M-H curves revealed that the switching mechanism of TbFeCo strongly depended on the deposition conditions of SiNx underlayer. When the SiNx underlayers were subjected to a compressive stress, magnetization switching of TbFeCo films preferred the nucleation mechanism. The contribution of compressive stress to magnetization reversal was obvious when changing the working pressure of deposition. The experiment of recording properties indicated that the media noise could be effectively reduced when the SiNx underlayer possessed a strong compressive stress. The compressive stress status also enhanced the perpendicular unaxial anisotropy (Ku) of MO trilayer. Our experimental results indicated that the storage density of MO disk could reach about 10 Gbit/inch2.
URI: http://140.113.39.130/cdrfb3/record/nctu/#NT910159020
http://hdl.handle.net/11536/69911
顯示於類別:畢業論文