生物活性组织呈现出一种处在光学和紫外范围内的超微弱光子辐射。我们认为这种现象不是普通的生物发光。当我们从单细胞生物转移到较高级的多细胞生物时,这种现象越来越显著。本文在已知的活机体中电磁耦合的范围内论述了《生物体内超微弱光子辐射》以下简称(PE)领域中的大量极其重要的实验结果和理论研究。最近的实验结果表明,这种生物体内的超微弱光子辐射控制着细胞内和细胞间的通讯和调节。这不仅简单地表明了 PE 能控制整个细胞的新陈代谢及其相应的细胞间的活动,而且从相干电磁相互作用的观点看,这种现象对于辨别生物学过程所要求的各种特性也是非常重要的,例如,光照治疗、免疫反应、遗传控制、记忆力的全息储存等。同时 PE 又为医学上的诊断和治疗以及药物剂量的研究提供了强有力的工具。 Bioactive tissue presents a very weak photon radiation in the optical and ultraviolet range. We think this phenomenon is not ordinary biological light. This phenomenon is more pronounced as we move from single-celled organisms to more advanced multicellular organisms. In this paper, we describe a large number of extremely important experimental results and theoretical studies in the field of “PE ultraweak photon radiation” (PE) in the known range of electromagnetic coupling in living organisms. Recent experimental results show that ultra-weak photon radiation in this organism controls intracellular and intercellular communication and regulation. This not only shows simply that PE controls the metabolism of the entire cell and its corresponding intercellular activity, but also from the point of view of coherent electromagnetic interaction, this phenomenon is important for distinguishing the various properties required by biological processes , For example, light therapy, immune response, genetic control, memory holographic storage, and the like. At the same time, PE provides a powerful tool for the medical diagnosis and treatment as well as the study of drug dosage.