Nanotone spatial dissipative structures with rotational curving of the grid around three mutually perpendicular directions

Доклады Академии наук Pub Date : 2019-10-30 DOI:10.31857/s0869-56524886619-623

V. B. Маlkov, В Б Малков, G. Shveikin, Г П Швейкин, S. Plaksin, С. В. Плаксин, V. Pushin, В Г Пушин, А. V. Маlkov, А В Малков, О. V. Маlkov, О. В. Малков, B. Shulgin, Б В Шульгин

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Abstract

Transmission electron microscopy and microdiffraction have been used to investigate nanothin spatial dissipative structures (SDS) obtained by thermogradient processing of an amorphous selenium film by one-sided heating of its lower surface at T = 413 K. It has been established that the obtained nanothin SDS of hexagonal selenium possess a specific curved habit and a nonlinear fan-shaped system of bending contours in their electron-microscopic image; the lattice of nanothin SDS undergoes an elastic-plastic rotational curvature around three mutually perpendicular directions; the lattice rotation angles of nanothin SDS hexagonal selenium reach: around [001], 25, around the direction perpendicular to [001] and lying in the plane of the amorphous film 32, around the direction perpendicular to the first two and not lying in the plane of the amorphous film 35.

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网格绕三个相互垂直方向旋转弯曲的纳米空间耗散结构

采用透射电子显微镜和微衍射技术研究了在温度为413 K时，对非晶硒薄膜下表面单面加热进行热梯度加工得到的纳米级空间耗散结构。得到的六方硒纳米薄SDS在电子显微镜图像上具有特定的弯曲习性和非线性扇形弯曲轮廓系统;纳米薄SDS的晶格围绕三个相互垂直的方向发生弹塑性旋转曲率;纳米薄SDS六角形硒的晶格旋转角达到:围绕[001]、25，围绕垂直于[001]方向且位于非晶膜平面32，围绕垂直于前两个方向且不位于非晶膜平面35。

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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Доклады Академии наук

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