摘要
借助多种学科知识,深入理解生命现象中的微观过程,可以为未来科学探索提供新的思路和方法。基于此,本文综述光的相干性、电离过程以及生物体中的光能释放,并将量子科学的概念应用于生物学研究。通过葡萄糖的氧化反应,描绘了动物体内光能释放的化学过程,阐述了量子生物学的基本假设,包括宇宙的不连续性、波函数与粒子动力学、不确定性以及量子活动与相对论的关系,以此揭示生命过程中电子的量子跃迁和化合物在生物体中的排列方式。
An in-depth understanding of microscopic processes in life phenomena with the help of knowledge from multiple disciplines can provide new ideas and methods for future scientific exploration.Based on this,this paper reviews the coherence of light,ionisation processes and light energy release in living organisms,and applies the concepts of quantum science to biological research.The chemical process of light energy release in animals is depicted through the oxidation reaction of glucose.The basic assumptions of quantum biology,including the discontinuity of the universe,the wave function and particle dynamics,uncertainty,and the relationship between quantum activity and relativity,are described as a means of revealing the quantum leaps of electrons in life processes and the arrangement of compounds in living organisms.
作者
张美玲
ZHANG Meiing(The State Information Center,Beijing 100124)
出处
《中国科技纵横》
2024年第13期169-171,共3页
China Science & Technology Overview
关键词
量子生物学
光子
电子传递
化学反应
电离势能
quantum biology
photons
electron transfer
chemical reactions
ionization potential
