The Study of Influence of the Teslar Technology on Aqueous Solution of Some Biomolecules

Research Letters in Physical Chemistry Pub Date : 2007-08-23 DOI:10.1155/2007/94286

E. Andreev, G. Dovbeshko, V. Krasnoholovets

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引用次数: 9

Abstract

The possibility of recording physical changes in aqueos solutions caused by a unique field generated by the Teslar chip (TC) inside a quartz wristwatch has been studied using holographic interferometry. We show that the refraction index of degassed pure distilled water and aqueous solutions of L-tyrosine and b-alanine affected by the TC does not change during the first 10 minutes of influence. In contrast, a 1% aqueous solution of plasma extracted from the blood of a patient with heart vascular disease changes the refractive index when affected by the TC. The characteristic time of reaction is about 10 2 seconds. Based on our prior research experience, we state that the response of the system studied to the TC's field is similar to that stipulated by the action of a constant magnetic field with the intensity of 1.1 × 10 − 3 T. Nevertheless, our team have unambiguously proved that the TC generates the inerton field, which is associated with a substructure of the matter waves (and, therefore, it does not relate to the electromagnetic nature). We could unambiguously prove that the TC generates the inerton field.

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特斯拉技术对某些生物分子水溶液影响的研究

利用全息干涉测量技术，研究了石英手表内部的特斯拉芯片(TC)产生的独特磁场对水溶液物理变化的记录可能性。我们发现，受TC影响的脱气纯蒸馏水和l -酪氨酸和b-丙氨酸水溶液的折射率在影响的前10分钟内没有变化。相反，从心脏血管疾病患者的血液中提取1%的血浆水溶液，当受TC影响时，其折射率会发生变化。反应的特征时间约为10.2秒。根据我们之前的研究经验，我们认为所研究的系统对TC场的响应类似于强度为1.1 × 10−3 T的恒定磁场的作用。尽管如此，我们的团队已经明确地证明了TC产生的惯性场与物质波的子结构有关(因此，它与电磁性质无关)。我们可以明确地证明TC产生了惯性场。

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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Research Letters in Physical Chemistry

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