[1] Gu Q. Quantum theory of biophoton emission. In: Popp F A, Li K H, Gu Q. Recent Advances in Biophoton Research and Its Applications. Singapore: World Scientific, 1992, 59-112

[2] Ruth B. Experimental investigation on ultraweak photon emission. In: Popp F A, Becker G, Konig H L, Peschka W. Electromagnetic Bio-Information. München: Urban & Schwarzenberg, 1979, 107-122

[3] Korneev A, Vachtomin Y, Minaeva O, Divochiy A, Smirnov K, Okunev O, Gol'tsman G, Zinoni C, Chauvin N, Balet L, Marsili F, Bitauld D, Alloing B, Li L H, Fiore A, Lunghi L, Gerardino A, Halder M, Jorel C, Zbinden H. Single-photon detection system for quantum optics applications. IEEE Journal on Selected Topics in Quantum Electronics, 2007, 13(4): 944-951

[4] Tafur J, vanWijk E P A, vanWijk R, Mills P J. Biophoton detection and low-intensity light therapy: a potential clinical partnership. Photomedicine and Laser Surgery, 2010, 28(1): 23-30

[5] ChwirotWB. New indications of possible role of DNA in ultraweak photon emission from biological systems. Journal of Plant Physiology, 1986, 122(1): 81-86

[6] Staninski K, Kaczmarek M, Lis S, Komar D, Szyczewski A. Spectral analysis in ultraweak emissions of chemi- and electrochemiluminescencesystems. Journal of Rare Earths, 2009, 27(4): 593-597

[7] Musumeci F, Applegate L A, Privitera G, Scordino A, Tudisco S, Niggli H J. Spectral analysis of laser-induced ultraweak delayed luminescence in cultured normal and tumor human cells: temperature dependence. Journal of Photochemistry and Photobiology B, Biology, 2005, 79(2): 93-99

[8] Dotta B T, Buckner C A, Cameron D, Lafrenie R F, Persinger M A. Biophoton emissions from cell cultures: biochemical evidence for the plasma membrane as the primary source. General Physiology and Biophysics, 2011, 30(3): 301-309

[9] Kokubo H, Yamamoto M, Kawano K. Magnetic stimuli for pieces of cucumber quantitative measurement using biophotons. Journal of International Society of Life Information Science, 2008, 26(2): 213-217

[10] Niggli H J. Temperature dependence of ultraweak photon emission in fibroblastic differentiation after irradiation with artificial sunlight. Indian Journal of Experimental Biology, 2003, 41(5): 419-423

[11] Katsumata M, Takeuchi A, Kazumura K, Koike T. New feature of delayed luminescence: preillumination-induced concavity and convexity in delayed luminescence decay curve in the green alga Pseudokirchneriella subcapitata. Journal of Photochemistry and Photobiology B, Biology, 2008, 90(3): 152-162

[12] Galle M, Neurohr R, Altmann G, Popp F A, Nagl W. Biophoton emission from daphnia magna: a possible factor in the selfregulation of swarming. Experientia, 1991, 47(5): 457-460

[13] Rattemeyer M, Popp F A, Nagl W. Evidence of photon emission from DNA in living systems. Naturwissenschaften, 1981, 68(11): 572-573

[14] Seliger H H. The origin of bioluminescence. Photochemistry and Photobiology, 1975, 21(5): 355-361

[15] Zhuravlev A I, Trainin V M. Chemiluminescent reactions in the Belousov-Zhabotinskii oscillating system. Journal of Bioluminescence and Chemiluminescence, 1990, 5(4): 227-234

[16] Popp F A. On the coherence of ultraweak photon emission from living tissues. In: Kilmister C W. Disequilibrium and Self-Organisation. Dordrecht, Boston: Kluwer Academic Publishers, 1986, 207-230

[17] Prigogine I, Nicolis G, Babloyantz A. Thermodynamics of evolution. Physics Today, 1972, 25(11): 23-28

[18] Gueron M, Eisinger J, Lamola A A. Excited states of nucleic acids. In: Paul O P, Ts O. Basic Principles in Nucleic Acid Chemistry. New York and London: Academic Press, 1976, 311-398

[19] Popp F A. Photon-storage in biological systems. In: Popp F A, Becker G, Konig H L, Peschka W. Electromagnetic Bio-Information. Urban & Schwarzenberg, 1979, 123-149

[20] Zhang J Z, Popp F A, Yu W D. Communication between dinoflagellates by means of photon emission. In: Beloussov L V, Popp F A. Biophotonics. Moscow: Bioinform Services Co, 1995, 317-330

[21] Popp F A, Nagl W, Li K H, Scholz W, Weingaqrtner O, Wolf R. Biophoton emission. New evidence for coherence and DNA as source. Cell Biophysics, 1984, 6(1): 33-52

[22] Frohlich H. Long-range coherence and energy storage in biological systems. International Journal of Quantum Chemistry, 1968, 2(5): 641-649

[23] Popp F A. Principles of complementary medicine in terms of a suggested scientific basis. Indian Journal of Experimental Biology, 2008, 46(5): 378-383

[24] Yang JM, Choi C, Hyun-hee,WooWM, Yi S H, Soh K S, Yang J S, ChoiC. Left-right and Yin-Yang balance of biophoton emission from hands. Acupuncture & Electro-Therapeutics Research, 2004, 29(3-4): 197-211

[25] van Wijk E P, Wijk R V, Bajpai R P, van der Greef J. Statistical analysis of the spontaneously emitted photon signals from palm and dorsal sides of both hands in human subjects. Journal of Photochemistry and Photobiology B, Biology, 2010, 99(3): 133-143

[26] Choi C,WooWM, Lee M B, Yang J S, Soh K S, Yang J S, Yoon G, Kim M, Zaslawsky C, Chang J J. Biophoton emission from the hands. Journal of the Korean Physical Society, 2002, 41(2): 275-278

[27] Soh K S. Bonghan duct and acupuncture meridian as optical channel of biophoton. Journal of the Korean Physical Society, 2004, 45(5): 1196-1198

[28] Popp F A, Maric-Oehler W, Schlebusch K P, Klimek W. Evidence of light piping (meridian-like channels) in the human body and nonlocal EMF effects. Electromagnetic Biology and Medicine, 2005, 24(3): 359-374

[29] Pang X F. Bioelectromagnetics. Beijing: National Defense Industry Press, 2008, 1 (in Chinese)

[30] Han J X. Meridian is a three-dimensional network from bioelectromagnetic radiation interference: an interference hypothesis of meridian. Cell Biochemistry and Biophysics, 2012, 62(2): 297-303

[31] Gu Q. Biophotonics. 2nd ed. Beijing: Science Press, 2012 (in Chinese)

[32] Han J X, Huang J Z. Mathematical model of biological order state or syndrome in traditional Chinese medicine: based on electromagnetic radiation within the human body. Cell Biochemistry and Biophysics, 2012, 62(2): 377-381

[33] Han J X, Han Y. Scientific connotation of “heaven-human correspondence”. Chinese Journal of Ethnomedicine and Ethnopharmacy, 2010, 19(16): 63-65 (in Chinese)

[34] Xu W Y. Phyisics of Electromagnetic Phenomena of the Earth. Anhui: Press of University of Science and Technology of China, 2009, 537-540 (in Chinese)

[35] Han J X, Yang M N, Chen Y. Quantum: may be a new-found messenger in biological systems. Bioscience Trends, 2011, 5(3): 89-92

[36] Yang H Q, Xie S S, Li H,Wang Y H. On optics of human meridians. Science in China Series G: Physics, Mechanics and Astronomy, 2009, 52(4): 502-507

[37] Schlebusch K P, Maric-Oehler W, Popp F A. Biophotonics in the infrared spectral range reveal acupuncture meridian structure of the body. Journal of Alternative and Complementary Medicine (New York, N.Y.), 2005, 11(1): 171-173

[38] Yan Z Q, Shi Y, Wang Y, Huang G, Jin B, Tang W. Studies on high luminescence of 14 major channels. Study Acupuncture, 1989, 8: 389-392 (in Chinese)

[39] Han J X. Studying scientific connotations of traditional Chinese herbal property theory. Chinese Archives of Traditional Chinese Medicine, 2011, 29(9): 1937-1939 (in Chinese)

[40] vanWijk R, van Aken H, MeiWP, Popp F A. Light-induced photon emission by mammalian cells. Journal of Photochemistry and Photobiology B, Biology, 1993, 18(1): 75-79

[41] vanWijk R, Kobayashi M, vanWijk E P. Anatomic characterization of human ultra-weak photon emission with a moveable photomultiplier and CCD imaging. Journal of Photochemistry and Photobiology B, Biology, 2006, 83(1): 69-76

[42] Woodward S A, Janky D M, Harms R H. The influence of light on egg yolk. Poultry Science, 1986, 65(3): 508-510

[43] Lambing K. Biophoton measurement as a supplement to the conventional consideration of food quality. In: Popp F A, Li K H, Gu Q. Recent Advances in Biophoton Research and Its Applications. Singapore, New Jersey, London, Hong Kong: World Scientific, 1992, 393-413

[44] Winkler R, Guttenberger H, Klima H. Ultraweak and induced photon emission after wounding of plants. Photochemistry and Photobiology, 2009, 85(4): 962-965

[45] Khatoon A, Rehman S, Hiraga S, Makino T, Komatsu S. Organspecific proteomics analysis for identification of response mechanism in soybean seedlings under flooding stress. Journal of Proteomics, 2012, 75(18): 5706-5723

[46] Cohen S, Popp F A. Biophoton emission of human body. Indian Journal of Experimental Biology, 2003, 41(5): 440-445

[47] Kim H W, Sim S B, Kim C K, Kim J, Choi C, You H, Soh K S. Spontaneous photon emission and delayed luminescence of two types of human lung cancer tissues: adenocarcinoma and squamous cell carcinoma. Cancer Letters, 2005, 229(2): 283-289

[48] Chen P, Zhang L, Zhang F, Liu J T, Bai H, Tang G Q, Lin L. Spectral discrimination between normal and leukemic human sera using delayed luminescence. Biomedical Optics Express, 2012, 3(8): 1787-1792

[49] Grasso F, Grillo C, Musumeci F, Triglia A, Rodolico G, Cammisuli F, Rinzivillo C, Fragati G, Santuccio A, Rodolico M. Photon emission from normal and tumor human tissues. Experientia, 1992, 48(1): 10-13

[50] Amano T, Kobayashi M, Devaraj B, Usa M, Inaba H. Ultraweak biophoton emission imaging of transplanted bladder cancer. Urological Research, 1995, 23(5): 315-318

[51] van Wijk R, Schamhart D H J. Regulatory aspects of low intensity photon emission. Experientia, 1988, 44(7): 586-593

[52] Park S H, Kim J, Koo T H. Magneto-acupuncture stimuli effects on ultraweak photon emission from hands of healthy persons. Journal of Acupuncture and Meridian Studies., 2009, 2(1): 40-48

[53] Kim T J, Nam K W, Shin H S, Lee S M, Yang J S, Soh K S. Biophoton emission from fingernails and fingerprints of living human subjects. Acupuncture & Electro-Therapeutics Research, 2002, 27(2): 85-94