Coherent Nanowhiskerography

S. N. Maksimovsky, A. Y. Stavtsev, V. N. Ivanova
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引用次数: 1

Abstract

A new technology is suggested for crystallizing arbitrary materials at temperatures of 3000-4000ºC and pressures of 20-100 thousand atmospheres. First experimental results were obtained in a foil-coated polycarbonate that comprised diffraction gratings. It was established that a laser beam reflected from the diffraction gratings is self-focused inside polycarbonate and becomes a seed, which changes the polycarbonate structure and leads to vitrification and growth of ordered structures from symmetrically arranged whiskers. This results in a light dispersion effect in composites. The results concerning whiskers formed with sharp tips are presented. We used data obtained in these experiments for developing a model of crystallization with the rates of 80-100 m/s. In this case, not only crystals grow, but nanowhiskers also. A new phenomenon of nanowhiskerography was discovered, which can be used for developing the defence against falsification that cannot be reproduced by polygraphic methods. A fundamental data, obtained in this article is allowed us to use technology for crystallisation any materials (glass, quartz, semiconductors, whisker graphite). The term “coherent nanowhiskerography” - is introduced for the first time by us, because the whisker crystallization occurs with a delay in reflection from two diffraction gratings, which are situated at the different depths. Thus, each whisker repeats in structure a retarded whisker during the crystalization. Due to this, unique optical and electrophysical properties arise. Since at the ends of whiskers there is only 1-2 atoms with dangling chemical bonds, therefore, the technology is extremely promising for the new direction of creating a new direction of terahertz technology and also up to date generations of the computing technology.
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相干Nanowhiskerography
提出了一种在温度3000 ~ 4000℃、压力20 ~ 10万大气压下使任意材料结晶的新技术。第一个实验结果是在包含衍射光栅的铝箔涂层聚碳酸酯中获得的。结果表明,从衍射光栅反射的激光束在聚碳酸酯内部自聚焦,成为一种种子,改变了聚碳酸酯的结构,导致对称排列的晶须玻璃化和有序结构的生长。这导致了复合材料中的光色散效应。给出了尖晶须形成的结果。我们利用在这些实验中获得的数据来建立一个速率为80-100米/秒的结晶模型。在这种情况下,不仅晶体会生长,纳米晶须也会生长。发现了一种纳米晶须的新现象,它可以用于发展对伪造的防御,而伪造是无法通过测谎方法复制的。在本文中获得的基本数据允许我们使用结晶任何材料(玻璃,石英,半导体,晶须石墨)的技术。“相干纳米晶须学”这个术语是我们首次提出的,因为晶须结晶发生在两个位于不同深度的衍射光栅的反射延迟中。因此,在结晶过程中,每个晶须在结构上重复一个延迟晶须。因此,产生了独特的光学和电物理性质。由于在晶须的末端只有1-2个带有悬垂化学键的原子,因此,该技术对于创造太赫兹技术的新方向以及最新一代的计算技术的新方向非常有希望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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