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Special Issues
Breakthrough Space Obstacle
American Journal of Modern Physics
Volume 2, Issue 4, July 2013, Pages: 227-233
Received: Jun. 11, 2013; Published: Jul. 10, 2013
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Bi Qiao, Dept. Physics, Wuhan University of Technology, Wuhan 430070, China
Song Kongzhi, Institute of Space Medico-Engineering, Beijing 100192, China
Zhang Bao Sheng, Institute of Space Medico-Engineering, Beijing 100192, China
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In this work, we try to propose a soliton processing mechanism to explain the phenomena of the Breakthrough Space Obstacles (BSO) based on the concrete experimental dates and figures taken from the somatic science. Through analysis and studying, we find that the sort of bio-electromagnetic wave field (BEF) is an origin of BSO. This BEF satisfies a nonlinear quantum Maxwell equation which is proportional to the change of particle density of object. Moreover, BEF has very broad of spectrum range from 100MHz to 1GHz and possesses high amplitude of the electromagnetic response, and also has width of frequency as well strong strength. It is this BEF allowing object to transform as a big soliton to have BSO probability by the nonlinear quantum interaction.
Macro-Tunneling, Soliton, Bio-Electromagnetic Field
To cite this article
Bi Qiao, Song Kongzhi, Zhang Bao Sheng, Breakthrough Space Obstacle, American Journal of Modern Physics. Vol. 2, No. 4, 2013, pp. 227-233. doi: 10.11648/j.ajmp.20130204.19
Song Kongzhi, The Existence and Significance of Parapsychological Function, J. International Society of Life Information Science (ISLIS) 17(1) 1999, pp. 198-214.
Song Kongzhi, Lan Rongliang, Li Xianggao, and Zhou Liangzhong, The Research of the break through spacial obstacle function, Create somatic science, 705-717, Sichuan Educate Publisher, Beijing, 1989.
Song Kongzhi, et al., Observation of large container the breakthrough space obstacle, J. Chinese Somatic Science 1(4) 1991, pp. 163.
Song Kongzhi, and Zhang Baosheng, Several specific functions and comparison, J. Chinese Somatic Science 3(3) 1998, pp 99.
Lin Shuhuang, and Liu Huiyi: Test and explore human phenomenon, China Radio International Press, China Beijing, published in November 1997.
Wu Banghui: a preliminary discussion of specific functional effects on the silicon crystal structure and its mechanism, J. Chinese Somatic Science 1(4) 1991, pp.160.
Xiao Guangda, et al., A study of the hidden state space and material hidden state, J. Chinese Somatic Science 1(4) 1991, pp. 178.
Zhao Ximing, et al. A study of the functional state of the ECG characteristic specific body, J. Chinese Somatic Science 3(3) 1998, pp. 114.
Zhai Tingxiang, et al. Change the uncontrollable type specific functionality to a controllable type specific features, J. Chinese Somatic Science 4(2) 1999, pp. 73.
Feng Bai, Chulin Sun, Zhiyi Liu, and Jinchuan Shen, Yin Zhu, Rongchao Ge, Caili Bei, Jindong Zhang, Xiaohong Shi, Yicheng Liu, Xuecheng Liu, Seeds Induced to Germinate Rapidly by Mentally Projected "Qi Energy" are Apparently Genetically Altered, American Journal of Chinese Medicine 28(1) 2000, pp. 3-8.
Joint test group for studying the specific body function, The joint test report on specific body function of authenticity, J. Chinese Somatic Science 9(4) 1999, pp. 160.
Song Kongzhi, Zhang Baosheng specific function of the enlightenment, Unpublished (in Chinese), 2009.
Bi Qiao, and Song Kongzhi, Macroscopic Quantum Tunneling, Journal of Modern Physics 4 2013, pp. 49-55.
Bi Qiao, Bio-Solitons Return Life, International Review of Physics 3(5) 2009, pp. 278-288.
Bi Qiao, Song Kongzhi and H. E. Ruda, Characteristics of coherence and information for the Davydov soliton field, J. Modern Phys. 3 2012, pp. 1907-1913.
Pang Xiao-Feng, and Feng Yuan-Ping, Quantum Mechanics In Nonlinear Systems, World Scientific Publishing Co. Pte. Ltd. Singapore, 2005.
Mark Srednicki, Quantum Field Theory, Cambridge University Press, 2007.
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