现代应用物理2016,Vol.7Issue(2):020602-1-020602-5,5.
γ辐射与神经细胞相互作用的量子物理研究
Interaction ofγ-Ray with Nerve Cells Using Quantum Physics Theory
摘要
Abstract
According to the basic theory of the quantum information and quantum computa-tion,a dynamics equation is established and solved to study the characteristics and physical mechanism of the interaction of low doseγirradiation with the cerebral nervous system,in which the two-state physical system in the cytoskeletal microtubule is regarded as a two-level atom system,and the states of information bits in the cerebral nervous system are described by a state-density matrix.The results show that the smaller the non-diagonal elements of the state-density matrix are,the quicker the quantum coherence of the system decreases.There-fore,it can be concluded that low dose ofγirradiation can affect the functions of the irradia-ted nerve cells of brain.关键词
γ辐射/神经细胞/物理机理/两能级原子Key words
γirradiation/nerve cells/physical mechanism/two-level atom分类
生物科学引用本文复制引用
高峰,肖德涛,张登玉..γ辐射与神经细胞相互作用的量子物理研究[J].现代应用物理,2016,7(2):020602-1-020602-5,5.基金项目
衡阳师范学院博士科研启动项目(14B43) (14B43)
湖南省“十二五”重点建设学科(光学201112) (光学201112)
