The role of water and its complexes in biological effect created by weak combined magnetic field

2016 9th International Kharkiv Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves (MSMW) Pub Date : 2016-06-20 DOI:10.1109/MSMW.2016.7538009

N. Sheykina

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Abstract

It was revealed experimentally that at small level of magnetic field's noise (less than 4μT/Hz^0.5) the dependence of gravitropic reaction of cress roots on frequency had a fine structure. The peak that corresponded to the cyclotron frequency of Ca²⁺ ions for the static component of combined magnetic field that was equal to 40μT became split up into three peaks (f₁ = 31/3Hz, f₂ = 32.5Hz f₃ = 34 Hz). The frequency f₁ corresponds to Ca²⁺ ion (the theoretical value is 31.6 Hz), the frequency f₂ corresponds to hydronium ion H₃O⁺ (the theoretical value is 32.9 Hz), and frequency f₃ relates OH^- ion (the theoretical value is 35 Hz), Taking into account the influence of combined magnetic field on the hydronium ions and the Del Giudice hypothesis the main doubts about the existence of ion cyclotron resonance may be broken. Hydronium ions are unusual because they have a long free path. It was revealed that the combined magnetic field tuned for the cyclotron frequency of hydronium ion changed pH of pure water. Such changes have to lead to biological effects.

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水及其配合物在弱联合磁场生物效应中的作用

实验结果表明，在小磁场噪声水平下(小于4μT/Hz0.5)，菜根向地性反应对频率的依赖具有精细的结构。复合磁场静态分量为40μT时Ca2+离子回旋频率对应的峰分裂为3个峰(f1 = 31/3Hz, f2 = 32.5Hz, f3 = 34 Hz)。频率f1对应Ca2+离子(理论值为31.6 Hz)，频率f2对应水合氢离子h30o +(理论值为32.9 Hz)，频率f3对应OH-离子(理论值为35 Hz)，考虑到组合磁场对水合氢离子的影响和Del Giudice假说，离子回旋共振存在的主要疑虑可能会被打破。水合氢离子很不寻常，因为它们有很长的自由路径。结果表明，调整为水合氢离子回旋频率的联合磁场改变了纯水的pH值。这种变化必然会导致生物效应。

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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2016 9th International Kharkiv Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves (MSMW)

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