Exploration On Reasonable Screening Of Biophotons And The Channel Tropism Of Chinese Herbs

The ultra-weak biophoton emission is a phenomenon of life body outwarding radiation photons, and the photons carry lots of information of life, which could reflect the whole characteristics of the living body. Based on this, it has been widely used in many fields, such as food, agriculture, medicine etc.. Excited by an light source, the delayed luminescence of the life materials and the non-living materials have specific dynamic curve, The difference of delayed luminescence dynamics and the characteristics of biological photon is worth exploring. In Traditional Chinese Medicine(TCM), the chemical composition of Chinese herbal medicines is complex, and the material base for the efficacy of Chinese herb has not been clear yet, which has brought great difficulties to the quality of TCM, while the biophoton detection technology provides a new method for exploring the quantification of medicine. Based on the coherence theory of biological photon and the holistic view of TCM theory, Professor Han Jinxiang summed up the scientific connotation of TCM. And we try to use the technology to explore and verify the theory of meridian tropism. The work of this paper mainly focuses on the characteristics of biophoton and quality of TCM, which has certain theoretical and practical significance.In this paper, we had obtained the data of spontaneous luminescence and delayed luminescence from scenedesmus and Chinese herbal medicines by ultra weak luminescence detection system. Then, we analyzed and compared the sample data to explore the characteristics of biophoton and the meridian tropism through theories and methods of quantum optics, statistics, neural networks etc.. The main work of this paper was the following two parts:The first part, biological photon discrimination:After the illumination of life and non-living materials, the curve of delayed luminescence was obviously different. Compared with the life material, the decay time of non-living material was shorter to reach the spontaneous emission or instrument noise.There was a "wave" phenomenon between Scenedesmus algae concentration and the spontaneous emission intensity. There was a peak phenomenon in the delayed luminescence curve of the algae. The size and position of the peak was related to the excitation light source, and we tried to use the physical model to explain the phenomenon.We found that the photon number of the majority of medicinal herbs was close to the Poisson distribution by photon number statistics for spontaneous emission, which supported the hypothesis of "coherence" of biological photon emission.The second part, exploring the meridian of Chinese herbs:We found that the most of peaks of double channel tropism of Chinese herbs appeared in the 715-870 nm band, and for the single meridian of herbs, it appeared in the 610-715 nm. Based on the neural network, we achieved classification before single and double channel tropism by the spectral data and the parameters of the squeezed state.In brief, we verified the characteristics of biophoton in delay decay curve, nonlinear and poisson distribution, and we realized the reasonable screening of biophotons. By using the biophoton detection, we initially realized the classification for medicine meridian. We hope our work can help in the future study.