Some Significant results obtained on the research of the Superluminal phenomena and communications: Superluminal is a natural phenomenon and the new era of the superluminal informatics

Volume 5, Issue 1, February 2020     |     PP. 34-51      |     PDF (692 K)    |     Pub. Date: March 9, 2020
DOI:    225 Downloads     6154 Views  

Author(s)

Zi hua Zhang, Research group on superluminal phenomena and suprluminal communications, Room. 22-441, No.10, Xu tu cheng lu, Haidian district, Beijing, China.
Hua an Zhang, Research group on superluminal phenomena and suprluminal communications, Room. 22-441, No.10, Xu tu cheng lu, Haidian district, Beijing, China.
Su Zhang, Research group on superluminal phenomena and suprluminal communications, Room. 22-441, No.10, Xu tu cheng lu, Haidian district, Beijing, China.
Zhi ying Zhong, Research group on superluminal phenomena and suprluminal communications, Room. 22-441, No.10, Xu tu cheng lu, Haidian district, Beijing, China.

Abstract
Briefiy introduced some significant results obtained on the research of the superluminal phenomena and Communications: firstly proved the causation of the superluminal propagation of the light pulses or photon trap is due to the reshaping of light pulse by the Dispersion of the media, the result of WKD experiment is correct, superluminal light pulse is real and can be used to transport the information; also for the first time proved the special relativity is pseudo visual mechanics has defect and imitation. The invariance principle of light veocity and veocity must less than c are wrong; suggest to deveop and complete the visual mechnics. Real visual mechanics recognize the superlumonal phenmena and consider the “Black hole” maybe is a departing superluminal celestial body. Think developing the superluminal propagation of signal is a important strategic task in informatics. .

Keywords
superluminal phenomena and superluminal communications; dispersion reshape; computer simulation; visual mechanics; Special Relativity; invariance of light velocity; time compensator; Sperluminal informatics;

Cite this paper
Zi hua Zhang, Hua an Zhang, Su Zhang, Zhi ying Zhong, Some Significant results obtained on the research of the Superluminal phenomena and communications: Superluminal is a natural phenomenon and the new era of the superluminal informatics , SCIREA Journal of Computer. Volume 5, Issue 1, February 2020 | PP. 34-51.

References

[ 1 ] L. J. Wang, A. Kuzmich & A. Dogariu, Nature, 406, 277 (2000). Dogariu. A, Kuzmich. A, and Wang. L. J, Transparent anomalous dispersion and superluminal light-pluse propagation at a negative group velocity, Phys. Rev. A, Vol. 63, 053806.
[ 2 ] L.Brillouin; Wave propagation and group velocity, (Academic Press, New York and London, 1960).
[ 3 ] Zhang zi hua, Zhang hua an, the influence of the research of the superluminal phenomena on the Physics and Communications, 6th Photonics annual meeting of China, 2008, Oct. ChongQing. Chinese Scientist, 2012, No.10. P. 80-89.
[ 4 ] Zhang zi Hua, Reshape and superluminal propagation of light pulse in negative dispersion media. Chinese Scientists , 2011, N0.1, p1-7. Zhang zi hua, Zhang Hua an, Cause of superluminal transmission of light pulse and Photon Capture (AOM 2010 –OSA-IEEE Topical Conference, Advances in Optoelectronics & Micro/nano-Optics, 3-6 Dec, 2010, Guangzhou, China).
[ 5 ] Zhang zi hua, et al. Is the Einstein’s Conclusion. No body can move faster than c, Correct? Chinese leading cadres BBS, 2016, P.519-522, (press of school of center committee of CCCP, 2016, Beijing),Chinese Metrology 2017, 7, p.70-72.Who is Who in the world (China) Vol.4, p.999-1003 (world Person press, Hong Kang 2019),
[ 6 ] Zi-hua Zhang, Hua-an Zhang, Zhi-ying Zhong, Is the Einstein’s theory of the limited velocity correct? discussing what is the Special relativity and the superluminal informatics, 2017 2nd international conference on communications, Information management and network Security. Oct, 22-23, 2017, Beijing, China. P.249-256. (DEStech publications Inc. Pennsylvania, U.S.A. 2017)
[ 7 ] Zihua Zhang and Zhiying Zhong: Superluminal Motion is Possible: Discussion of Limitation and Application of the Special Relativity, p.939-43, Proceedings of 2013 International Academic Workshop on Social Science, 2013).
[ 8 ] Zhang zi hua, Zhong Zhi ying, Zhang hua an. Briefly talking about the contradiction between Superluminal phenomena and the Special Relativity. Chinese Scientist, 2012, June, p.14.
[ 9 ] Cyclopedia of China, (Electronic engineering and Electro-technics) (Cyclopedia Press, 2012, Jan. Beijking), p.35.
[ 10 ] Zi hua zhang, Special way of Optical Communications, the technique of superluminal Communications, Advances in intelligent and computing 127 p. 145-53. (Springer-Verlag Berlin Heidelberg, 2011)
[ 11 ] Zi-hua Zhang and Hua-an Zhang; Superluminal transmission of the information___ and its applications in Communications and Computer. Advance in Computer Science Research Vol 48, p.11-14, (Atlantis Press, 2016.Paris-Amsterdam- Beijing),
[ 12 ] Z.H. Zhang, H.A. Zhang & Z.Y. Zhong; A study of the possibility of the Superluminal communications, p.11-15, Future Communicatin Technology and Engineering, (CRC Press, Boca Raton London New York Leiden, 2015).
[ 13 ] Zi Hua Zhang, Hua An Zhang and Zhi Ying Zhong: Superluminal Communications, Computers and Superluminal Informatics in Future, FTC 2016 – Future Technologies Conference 2016 6-7 December 2016, San Francisco, United States.
[ 14 ] Zhang zi hua, Zhong zhi ying, Zhang hua an, The discussion of the transit broadening with a Gaussian beam and beam expanding in high resolution spectroscopy, Laser technology, Vol.14, No. 3, P2-7, 1990.
[ 15 ] A. Einstein; Relativity, (Methuen & Co Ltd,Dec. 1916).
[ 16 ] Nature, 2011-9-22.
[ 17 ] Huang Zhi-xun. Recent Advances in Faster Than Light Research. (in Chinese),(National Defence Industry Press 2002).Huang Zhi-xun. Theory and Experiments of Faster than Light Research; (in Chinese ),(Academic Press 2005).
[ 18 ] Zhang zi hua, Zhong zi ying, Zhang hua an, The discussion of the transit broadening with a Gaussian beam and beam expanding in high resolution laser spectroscopy, Laser Technology, Vol.14, No.2. P.2-7, 1990.
[ 19 ] C. MØLLER, The theory of Relativity, 1st ed, (1955).
[ 20 ] Chen Peng Wan et.al. Handbook of university physics, Science and technology Press of Shang Dong, 1985, Ji Nan China.
[ 21 ] G. P. Agrawal, Nonlinear Fiber Optics ( in Chinese publishing House Of Electronics Industry 2010)
[ 22 ] Zhang zi hua, the propagation of the superluminal pulse in gain-aid medium without distortion, “Shen Shi Zhi Guang” Memoir of Theory and Practice of Chinese modern invention, 2009, Sep.
[ 23 ] Zhang L, Zhan L, et al, Superluminal Propagation at Negative Group Velocity in Optical Fibers Based on Brillouin Lasing Oscillation, Phy. Rev. Lett. 107, 093903, (2011).
[ 24 ] G. Nimtz, W. Heitmann; Superluminal photonic tunneling and Quantum electronics. Prog. Quan Electr. 1997, 21(2), 81-108.