波导上纳米介质材料形貌的光学微分倏逝研究

S. Popescu, N. Mirchin, I. Lapsker, P. Notingher, I. Mihăilescu, A. Peled
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引用次数: 0

摘要

本文采用微分倏逝光强(DELI)方法,研究了可见光波段短波辐照下胶体溶液沉积的纳米厚度介电层。采用高强度紫外滤光灯直接在作为波导的玻璃基板上光沉积纳米层。非晶态硒(a-Se)纳米薄层形成约1 cm2面积的圆形区域。用DELI分析了熔融在玻璃波导上的聚丙烯和聚乙烯化合物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical differential evanesent investigation of nanometric dielectric materials morphology on waveguides
In this work, nanometer thickness dielectric layers deposited from colloid solutions using irradiation with Short Wavelength (SW) in the visible domain have been investigated by the Differential Evanescent Light Intensity (DELI) method. A high intensity UV filtered irradiation lamp was used for photodepositing nano-layers, directly on glass substrates serving as waveguides. The amorphous Selenium (a-Se) nanometric thin layers were deposited as circular zones of about ~ 1 cm2 area. Polypropylene and Polyethylene compounds melted on glass waveguides were also analyzed by DELI.
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