附一:相关引用注释
1. Kennedy D. Science 125: What don’t we know?[J]. Science, 2005, 309(5731): 78-103.
2. Salari M, Oblak D, Simon C, et al. Imaging Ultraweak Photon Emission from Living and Dead Mice and from Plants under Stress[J]. The Journal of Physical Chemistry Letters, 2025, 16(17): 4867-4874.
3. 张锦珠,于文斗。海洋甲藻 Pyrocistis elegans 电激发光的研究 [J]. 生物物理学报,1994,10 (4):641-650.
4. 张锦珠,于文斗,Fritz-Albert Popp. 利用光子发射研究海洋甲藻间的细胞通讯 [J]. 科学通报,1994,39 (20):1904-1906.
5. 于文斗,张锦珠。鸡胚神经细胞发育过程光子发射的研究 [J]. 科学通报,1995,40 (14):1318-1321.
6. 张锦珠,于文斗,孙彤,等。鸡胚完整脑的光子发射和光激发光研究 [J]. 中国科学 (C 辑),1996,26 (6):481-486.
7. Popp F A, 张锦珠。光及电磁场与生物体作用的机理 [J]. 中国科学 (C 辑),2000,30 (6):561-568.
8. 张锦珠。生物光子的物理特性及其生物学意义 [J]. 物理,2005,34 (2):123-130.
9. Popp F A, Becker G, König H L, et al. Electromagnetic Bio-Information [M]. München: Urban & Schwarzenberg, 1979.
10. Rattemeyer M, Popp F A, Nagl W. Evidence of photon emission from DNA in living systems[J]. Naturwissenschaften, 1981, 68(11): 572-573.
11. Popp F A, Ruth B, Bahr W, et al. Emission of visible and ultraviolet radiation by active biological systems [J]. Collective Phenomena, 1981, 3: 187-214.
12. Popp F A, Nagl W, Li K H, et al. Biophoton emission. New evidence for coherence and DNA as source[J]. Cell Biophysics, 1984, 6: 33-52.
13. Popp F A, Li K H, Mei W P, et al. Physical aspects of biophotons[J]. Experientia, 1988, 44(7): 576-585.
14. Popp F A. Properties of biophotons and their theoretical implications. Indian J Exp Biol 2003, 41, 391−402.
15. Popp F A, Li K H, Gu Q. Recent Advances in Biophoton Research and its Applications [M]. Singapore: World Scientific, 1992.
16. Popp F A, Yan Y. Delayed luminescence of biological systems in terms of coherent states[J]. Physics Letters A, 2002, 293(1-2): 93-97.
17. Popp F A. Properties of biophotons and their theoretical implications [J]. Indian Journal of Experimental Biology, 2003, 41 (5): 391-402.
18. Pospíšil P. Origin of ultraweak photon emission in biological systems[J]. Journal of Photochemistry and Photobiology B: Biology, 2014, 140:162-172.
19. 严智强,张旭良.1979. 人体体表发光的初步探讨 [J]. 生物化学与生物物理进展,6 (2):48-52.
20. 严智强,于书庄。循经感传与经穴发光变化之间关系的探讨 [J]. 中医杂志,1980 (8):53-56.
21. 严智强。体表冷光应用的进一步探讨 [J]. 中国生物医学工程学报,1983,2 (3):189-194.
22. 严智强,田力,林伟力,等。人体经穴经线高发光等生物物理特性的研究 [J]. 中医杂志,1983 (10):69-71.
23. Duncan, F. E., Que, E. L., Zhang, N., Feinberg, E. C., O'Halloran, T. V., & Woodruff, T. K. (2016). The zinc spark is an inorganic signature of human egg activation. Scientific Reports, 6(1), 25663.
24. Nature Reviews Physics. Biophotonics and ultraweak photon emission: endogenous optical biomarkers for non-invasive early medical diagnosis. 2026, March.
25. Han J J, Yu X L, Hong Y, et al. Emergence of consciousness from anesthesia through ubiquitin degradation of KCC2 in the ventral posteromedial nucleus of the thalamus[J]. Nature Neuroscience, 2023, 26(5):751-764.
26. Song X J, Liao H, Ma P, et al. Cell-type specific regulation of KCC2 ubiquitination mediates active emergence from general anesthesia[J]. PNAS, 2024, 121(19):e2316247121.
27. Song X J. Neurobiological basis of emergence of consciousness from anesthesia[J]. Trends in Neurosciences, 2024, 47(4):312-326.
28. Mo R, Qiu C, Wu G, et al. EphB1-NR2B receptor signaling in ventroposteromedial thalamic glutamatergic neurons controls active consciousness recovery after anesthesia[J]. Science Advances, 2025, 11(49):eadp2897.
29. Johnson H R M. At What Blood Levels Does Alcohol Kill?[J]. Medicine, Science and the Law, 1985, 25(2): 127-130.
30. Sulmasy D P. Whole-brain death and integration: realigning the ontological concept with clinical diagnostic tests[J]. Theoretical Medicine and Bioethics, 2019, 40:455-481.
31. 2007年4月8日,央视网报道,22岁男子心跳骤停150分 抢救6小时后奇迹复活;2024年7月11日,扬州日报报道,江都人民医院成功抢救心脏骤停两小时男子;2026年1月12日,光明网报道广州医科大学附属番禺中心医院成功抢救一名心脏呼吸停止超2小时的患者,且无后遗症;
附二:即将发布课题
>>新科学解析基础物理三百年未解谜题——惯性的本质
>>牛顿宇宙观、爱因斯坦宇宙观、量子力学宇宙观与新科学宇宙观
>>开放系统中的地球生命起源与演化

