固体浸没透镜用于飞秒三维光存储研究  

Application of solid immersion lens to three-dimensional optical storage with femtosecond laser

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作  者:贺锋涛[1] 程光华[2] 郝爱花[1] 时坚[1] 

机构地区:[1]西安邮电学院电子与信息工程系,陕西西安710061 [2]中科院西安光学精密机械研究所瞬态光学技术国家重点实验室,陕西西安710068

出  处:《应用光学》2007年第5期598-602,共5页Journal of Applied Optics

摘  要:为进一步提高光存储密度,利用固体侵没透镜(SIL)与数值孔径为0.55的长工作距离物镜对飞秒激光脉冲进行聚焦,完成了PMMA及石英介质上的存储实验,并对聚焦物镜焦点与SIL底面离焦时的介质内焦点位置和系统的数值孔径进行了模拟。实验结果表明:当聚焦物镜焦点与SIL底面适当离焦时,实际聚焦在介质内的焦点深度不断加深,且系统的有效数值孔径不断增大。利用这一结果,在距PMMA表面20μm的地方得到了点间距1μm,层间距2.5μm的6层空间点阵;在距石英介质表面15μm的地方获得了点间距为0.6μm,层间距为2.5μm的5层空间点阵,其存储密度可达1.1×1012b its/cm3。Solid immersion lens (SIL) was employed to increase the optical writing density. The position of loci and numerical aperture of the focusing system with SIL were simulated, and the three-dimensional optical data storage was conducted. The simulation result shows that the depth actually focused into the media is increased and the effective numerical aperture is enlarged with the suitable off-focus distance between the loci of focusing objectives and the bottom plane of SIL. With this result, a SIL with n= 1.55 was positioned under a 0. 55 NA micro objective to focus a 150 fs Ti : sapphire pulse laser at 800 nm, and a 5-layer reading and writing of data were achieved with 2.5 mm separation between two layers and 0.6 mm separation between two bits. Accordingly, the storage density of 1.1×10^12bits/cm^3 was obtained in this way.

关 键 词:飞秒激光 固体浸没透镜 三维光存储 

分 类 号:TN249-34[电子电信—物理电子学]

 

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