摘要
研究了低频电磁辐射场与脑神经系统的相互作用规律及其机理。电磁辐射为非电离低频电磁场,将脑神经细胞骨架微管(MT)中的两态物理系统进行量子化,用密度矩阵描述脑神经系统中信息位的状态,建立并求解脑神经系统中信息位的动力学方程。结果表明:当非电离低频电磁辐射射向大脑时,脑神经系统中信息位的密度矩阵非对角元在任意时刻都不为零,能够保持较好的量子相干性,脑神经系统的功能不会受到破坏。
We investigate the interaction characteristics and mechanism of electromagnetic radiation field and cerebral nervous system. When the electromagnetic radiation is non-ionization low-frequency electro- magnetic field, the two-state physical system in the cytoskeletal microtubule (MT) can be quantized. The state of information bits in cerebral neurous system is described by density matrix, and the system dynam- ics equation is established and solved. It indicates that when the brain is exposed to non-ionization low-fre- quency electromagnetic field, the density matrix non-opposite angle element of cerebral nervous qubit will never be zero, its quantum coherence characteristic can keep well, and the brain function will also be not damaged.
出处
《原子核物理评论》
CAS
CSCD
北大核心
2009年第4期343-347,共5页
Nuclear Physics Review
基金
湖南省自然科学基金资助项目(06JJ5118)~~
关键词
电磁辐射
神经细胞
非热效应
信息位
electromagnetic radiation
nervous cell
non-thermal effect
bit
