动态微观/纳米物质模型中的肌电场分析

Q4 Engineering Informatyka Automatyka Pomiary w Gospodarce i Ochronie Srodowiska Pub Date : 2019-03-03 DOI:10.5604/01.3001.0013.0877

P. Fiala, K. Bartusek, J. Dedková, P. Dohnal

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引用次数: 5

摘要

我们讨论了一个数值模型(宏观/微观/纳米)，以便在原子水平上更准确地分析水中的电-水动力学(EMHD)过程。专门的实验表明，在磁场中插入相对均匀的周期结构(去离子、脱气或蒸馏的H2O)将影响原子基、分子和相关键。在此背景下，本文着重于从微观角度设计、分析和评价一个代表H2O的广泛系统的行为，并概述了所检查的水样中键的性质和变化。此外，还用一个简单的例子定义了f = 1 GHz至10 GHz频率范围内产生的螺旋静态梯度磁场和非平稳梯度电磁场的分析结果。

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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EMG FIELD ANALYSIS IN DYNAMIC MICROSCOPIC/NANOSCOPIC MODELS OF MATTER

We discuss a numerical model (macro/micro/nanoscopic) to enable more accurate analysis of electro-hydro-dynamic (EMHD) processes in water at the level of atoms. Dedicated experiments have shown that inserting a relatively homogeneous periodic structure (deionized, degassed, or distilled H2O) in a magnetic field will influence the atomic basis, molecules, and relevant bonds. In this context, the present paper focuses on the designing, analysis, and evaluation of the behavior of an extensive system that represents H2O from the microscopic perspective, and it also outlines the properties and changes of the bonds in the examined water samples. Complementarily, a simple example is used to define the results obtained from analyses of the generated spiral static gradient magnetic and non-stationary gradient electromagnetic fields from the frequency range of f = 1 GHz to 10 GHz.

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