电磁辐射对生物系统中非线性电荷与能量传输的影响。

Electromagnetic radiation influence on nonlinear charge and energy transport in biosystems.

作者信息

Brizhik L, Cruzeiro-Hansson L, Eremko A

机构信息

Bogolyubov Institute for Theoretical Physics, Metrologichna Str. 14-b, 252143 Kyiv, Ukraine.

出版信息

J Biol Phys. 1999 Jun;24(2-4):223-32. doi: 10.1023/A:1005121820566.

DOI:10.1023/A:1005121820566

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3456602/

Abstract

The influence of electromagnetic radiation (EMR) on charge and energy transport processes in biological systems is studied in the light of the soliton model. It is shown that in the spectrum of biological effects of EMR there are two frequency resonances corresponding to qualitatively different frequency dependent effects of EMR on solitons. One of them is connected with the quasiresonance dynamic response of solitons to the EMR. At EMR frequencies close to the dynamic resonance frequency the solitons absorb energy from the field and generate intensive vibrational modes in the macromolecule. The second EMR resonance is connected with soliton decay due to the quantum mechanical transition of the system from the bound soliton state into the excited unbound states.

摘要

根据孤子模型研究了电磁辐射（EMR）对生物系统中电荷和能量传输过程的影响。结果表明，在EMR的生物效应谱中，有两个频率共振，它们对应于EMR对孤子的性质不同的频率依赖性效应。其中一个与孤子对EMR的准共振动态响应有关。在接近动态共振频率的EMR频率下，孤子从场中吸收能量并在大分子中产生强烈的振动模式。第二个EMR共振与孤子衰变有关，这是由于系统从束缚孤子态到激发非束缚态的量子力学跃迁所致。

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