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弱场HO离子回旋共振改变水的折射率。

Weak-field HO ion cyclotron resonance alters water refractive index.

作者信息

D'Emilia E, Ledda M, Foletti A, Lisi A, Giuliani L, Grimaldi S, Liboff A R

机构信息

a Department of Anthropic Settlements , INAIL (National Institute for Insurance against Accidents at Work) , Rome , Italy.

b Department of Medicine , Institute of Translational Pharmacology CNR , Rome , Italy.

出版信息

Electromagn Biol Med. 2017;36(1):55-62. doi: 10.1080/15368378.2016.1181082. Epub 2016 Jul 1.

DOI:10.1080/15368378.2016.1181082
PMID:27368079
Abstract

Heretofore only observed in living systems, we report that weak-field ion cyclotron resonance (ICR) also occurs in inanimate matter. Weak magnetic field (50 nT) hydronium ICR at the field combination (7.84 Hz, 7.5 µT) markedly changes water structure, as evidenced by finding an altered index of refraction exactly at this combined field. This observation utilizes a novel technique which measures the scattering of a He-Ne laser beam as the sample is exposed to a ramped magnetic field frequency. In addition to the hydronium resonance, we find evidence of ICR coupling to a more massive structure, possibly a tetrahedral combination of three waters and a single hydronium ion. To check our observations, we extended this technique to DO, successfully predicting the specific ICR charge-to-mass ratio for DO that alters the index of refraction.

摘要

此前仅在生命系统中观察到,我们报告弱场离子回旋共振(ICR)也发生在无生命物质中。在(7.84赫兹,7.5微特斯拉)的场组合下,弱磁场(50纳特斯拉)水合氢离子ICR显著改变水的结构,这可通过恰好在该组合场处发现折射率改变得到证明。该观察使用了一种新技术,当样品暴露于斜坡磁场频率时,该技术测量氦氖激光束的散射。除了水合氢离子共振外,我们还发现了ICR与更重结构耦合的证据,该结构可能是三个水分子和一个水合氢离子的四面体组合。为了检验我们的观察结果,我们将该技术扩展到重水(D₂O),成功预测了改变折射率的重水的特定ICR质荷比。

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