Roughness of Polished Surfaces of Optoelectronic Components Made of Polymeric Optical Materials

IF 1.2 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Superhard Materials Pub Date : 2023-03-27 DOI:10.3103/S1063457623010045

Yu. D. Filatov, V. I. Sidorko, S. V. Sokhan’, S. V. Kovalev, A. Y. Boyarintsev, V. A. Kovalev, O. Y. Yurchyshyn

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引用次数: 2

Abstract

As established from the results of studying the mechanism of nanorelief formation of the treated surface during polishing of polymer optical materials by means of dispersed systems based on micro- and nanoparticle polishing powders, roughness parameters Ra, Rq, and R_max increase linearly with an increase in the size of the sludge particles and decrease with an increase in the transfer energy. It is shown that they substantially increase with a decrease in the spectral separation between the processed material and the polishing powder particle and are extremely dependent on the dielectric constant differences between the processed material, the polishing powder, and the dispersed system. It is found that the roughness parameters of the treated surface decrease exponentially with an increase in the frequency index of Förster resonance energy transfer (FRET) efficiency and increase linearly with an increase in the time index of FRET efficiency. In the case of an increase in the Q factor of the resonator formed by the surfaces of the processed material and the polishing tool, the roughness parameters of the polished surfaces of parts made of polymeric optical materials increase linearly.

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高分子光学材料光电元件抛光表面粗糙度研究

基于微颗粒和纳米颗粒抛光粉的分散体系对高分子光学材料抛光过程中被处理表面纳米形貌形成机理的研究结果表明，粗糙度参数Ra、Rq和Rmax随污泥颗粒大小的增加而线性增加，随传递能量的增加而减小。结果表明，它们随着被加工材料和抛光粉颗粒之间光谱距离的减小而显著增加，并且极大地依赖于被加工材料、抛光粉和分散体系之间的介电常数差异。研究发现，处理后表面粗糙度参数随Förster共振能量传递效率频率指数的增加呈指数减小，随共振能量传递效率时间指数的增加呈线性增大。当被加工材料表面和抛光工具表面形成的谐振腔的Q因子增加时，聚合物光学材料制成的零件抛光表面的粗糙度参数线性增加。

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来源期刊

Journal of Superhard Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

1.80

自引率

66.70%

发文量

审稿时长

2 months

期刊介绍： Journal of Superhard Materials presents up-to-date results of basic and applied research on production, properties, and applications of superhard materials and related tools. It publishes the results of fundamental research on physicochemical processes of forming and growth of single-crystal, polycrystalline, and dispersed materials, diamond and diamond-like films; developments of methods for spontaneous and controlled synthesis of superhard materials and methods for static, explosive and epitaxial synthesis. The focus of the journal is large single crystals of synthetic diamonds; elite grinding powders and micron powders of synthetic diamonds and cubic boron nitride; polycrystalline and composite superhard materials based on diamond and cubic boron nitride; diamond and carbide tools for highly efficient metal-working, boring, stone-working, coal mining and geological exploration; articles of ceramic; polishing pastes for high-precision optics; precision lathes for diamond turning; technologies of precise machining of metals, glass, and ceramics. The journal covers all fundamental and technological aspects of synthesis, characterization, properties, devices and applications of these materials. The journal welcomes manuscripts from all countries in the English language.