Volume 6 , Issue 2 , PP: 87-96, 2020 | Cite this article as | XML | Html | PDF | Full Length Article
Victor Christianto 1 * , Florentin Smarandache 2
In a recent paper, we describe a model of quantum communication based on combining consciousness experiment and entanglement, which can serve as impetus to stop 5G-network-caused diseases. Therefore, in this paper we consider superluminal physics and superluminal communication as a bridge or intermediate way between subluminal physics and action-at-a-distance (AAAD) physics, especially from neutrosophic logic perspective. Although several ways have been proposed to bring such a superluminal communication into reality, such as Telluric wave or Telepathy analog of Horejev and Baburin, here we also review two possibilities: quaternion communication and also quantum communication based on quantum noise. Further research is recommended in the direction outlined herein. Aim of this paper: We discuss possibilities to go beyond 4G and 5G network, and avoid the unnecessary numerous health/diseases problems caused by massive 5G network. Contribution: We consider quaternionic communication and quantum communication based on quantum noise, which are largely unnoticed in literature. Limitation: We don’t provide scheme for operationalization, except what we have provided in other paper.
quantum entanglement, quantum communication, consciousness, superluminal communication, action at a distance.
[1] Hans Sallhofer. Elementary Derivation of the Dirac equation. X. Z. Naturforsch. 41a, pp.468-470, 1986 [1a] See also his series of papers on classical description of hydrogen.
[2] Volodimir Simulik. Some Algebraic Properties of Maxwell-Dirac Isomorphism. Z. Naturforsch. 49a, 1074-1076 (1994)
[3] Bo Lehnert. Minimum mass of a composite boson. J. Modern Physics, 5, pp.2074-2079, 2016.
[4] Victor Christianto & Florentin Smarandache. A derivation of Maxwell equations in Quaternion Space. Progress in Physics vol. 2, April 2010. url: http://www.ptep-online.com
[5] G. Scolarici and L. Solombrino. COMPLEX ENTANGLEMENT AND QUATERNIONIC SEPARABILITY. In C. Garola, A. Rossi, S. Sozzo, The Foundations of Quantum Mechanics, Cesena, Italy, October 2004. New Jersey: World Scientific Publ. Co., pp.301-310, 2006.
[6] Peter Holland. WHAT’S WRONG WITH EINSTEIN’S 1927 HIDDEN-VARIABLE INTERPRETATION OF QUANTUM MECHANICS? Arxiv: quant-ph/0401017, 2004.
[7] Darrin W. Belousek. Einstein’s 1927 Unpublished Hidden-Variable Theory: Its Background, Context and Significance. Stud. Hist. Phil. Mod. Phys., Vol. 21, No. 4, pp. 431461, 1996
[8] Stephen L. Adler. Does the Peres experiment using photons test for hyper-complex
(quaternionic) quantum theories? arXiv: 1604.04950, 2016.
[9] J.P. Singh. Quantum entanglement through quaternions. Apeiron, Vol. 16, No. 4, 2009.
[10] J.P. Singh & S. Prabakaran. Quantum Computing Through Quaternions. EJTP 5, No. 19, pp.1–8, 2008.
[11] G. Najarbashi et al. Two and Three-Qubits Geometry, Quaternionic and Octonionic Conformal Maps, and Intertwining Stereographic Projection. arXiv: 1501.06013,2015
[12] Matthew E. Graydon. Quaternions and Quantum Theory. A thesis presented to the University of Waterloo, Ontario, Canada, 2011.
[13] William K. Wootters. Entanglement of Formation and Concurrence. Quantum Information and Computation, Vol. 1, No. 1 pp.27-44, 2001.
[14] R.N. Boyd, V. Christianto, F. Smarandache. A harmless wireless quantum alternative to cell phones based on quantum noise. EC Neurology 11.10,pp.942-946, 2019. url: https://www.ecronicon.com/ecne/pdf/ECNE-11-00585.pdf
[15] Augusto Espinoza Garrido. Review to Andrew E. Chubykalo, Viv Pope and Roman Smirnov-Rueda. Instantaneous Action at a Distance in Modern Physics: Pro and Contra. Nova Science Publishers, Inc., 1999. AFLB. url: http://aflb.ensmp.fr/AFLB-293/aflb293m179.pdf
[16] F. Smarandache. There is no speed barrier in the Universe. Bull. Pure and Appl. Science, vol. 17D (Physics) No. 1, vol. 61, 1998. Also in url: http://fs.unm.edu/NoSpLim.htm; see also [16a] E Weisstein, Smarandache Hypothesis, Science World Encyclopedia, Wolfram, http://scienceworld.wolfram.com/physics/SmarandacheHypothesis.html
[17] F. Smarandache. There Is No Speed Barrier for a Wave Phase Nor for Entangled Particles. Prog. In Phys. vol. 1 (2005). www.ptep-online.com
[18] Tesla’s world system. Museum of Science & Technology, Belgrade, 2016.
[19] Ljiljana Trajković. TESLA’S VISION OF THE WIRELESS GLOBAL COMMUNICATIONS. Communication Networks Laboratory, Simon Fraser University, http://www.ensc.sfu.ca/research/cnl
[20] Paul Brenner. TESLA AGAINST MARCONI : The Dispute for the Radio Patent Paternity. Paper TPC-8. (unknown date)
[21] Aleksandar Marincic, Zorica Civric. NIKOLA TESLA’S CONTRIBUTIONS TO RADIO DEVELOPMENTS. (unknown date)
[22] Nikola Tesla, Method of operating arc lamps, U.S. patent, 447,920, Mar. 10, 1891, applied on Oct.1, 1890.
[23] Nikola Tesla, Alternating electric current generator, U.S. patent, 447,921, Mar. 10, 1891, applied on Nov.15, 1890.
[24] Nikola Tesla: Experiments with alternate currents of very high frequency and their application to methods of artificial illumination, lecture delivered before A.I.E.E., at Columbia College, May 20, 1891; republished many times after publication in Electrical Engineer, New York, July 8, pp.25-48, 1891.
[25] John S. Belrose. ON THE BIRTH OF WIRELESS TELEPHONY, 2000.
[26] A. David Wunsch. Nikola Tesla’s True Wireless: A Paradigm Missed. Proceedings of the IEEE, Vol. 106, No. 6, June 2018.
[27] V.I. Horejev & L.A. Baburin. Transfer of information by means of Physical medium of Superweak (Torsion) Fields (Telepathy analog). url: https://static1.squarespace.com/static/5e3f6f3ecac0f04ddd54be55/t/5e8eb471408bde73996dcf5d/1586410611532/Torsion.pdf
[28] Yupapin, P.P. Human ad hoc networks using telepathic conections. J Biosens Bioelectron 2014, 5:1 DOI: 10.4172/2155-6210.1000e129. url: https://www.hilarispublisher.com/open-access/human-ad-hoc-networks-using-telepathic-connections-2155-6210.1000e129.pdf
[29] Viviana Siddhi. Is Telepathy Allowed or Is Controled? J Complement & Alt Med. 1(3): 2019. OJCAM.MS.ID.000515. DOI: 10.33552/OJCAM.2019.01.000515. url: https://irispublishers.com/ojcam/pdf/OJCAM.MS.ID.000515.pdf
[30] Abdolkarim Afroozeh, Seyed Ebrahim Pourmand. Telepathic Communication Generation using Nano Fiber Ring. J. Optoelectronical Nanostructures, Vol. 3 no. 1, 2018. url: http://jopn.miau.ac.ir/article_2822_e87af1d61239a08a94f473c0496773be.pdf
[31] M. Al- Tahan, “Some Results on Single Valued Neutrosophic (Weak) Polygroups”, International Journal of Neutrosophic Science, Volume 2 , Issue 1, pp. 38-46 , 2020.
[32] M. Khalid, Young Bae Jun, Mohammad Mohseni Takallo, Neha Andaleeb Khalid, “Magnification of MBJ-Neutrosophic Translation on G-Algebra”, International Journal of Neutrosophic Science Volume 2 , Issue 1, pp.27-37 , 2020
[33] S. A. Edalatpanah, “A Direct Model for Triangular Neutrosophic Linear Programming”, International Journal of Neutrosophic Science, Volume 1, Issue 1, pp.19-28 , 2020
[34] M. Parimala , M. Karthika , Florentin Smarandache , Said Broumi, “On αω-closed sets and itsconnectedness in terms of neutrosophic topological spaces”, International Journal of Neutrosophic Science, Volume 2 , Issue 2, pp. 82-88 , 2020
[35] E.O. Adeleke , A.A.A. Agboola , F. Smarandache, “Refined Neutrosophic Rings II”, International Journal of Neutrosophic Science, Volume 2 , Issue 2, pp. 89-94 , 2020
[36] V. Christianto, F. Smarandache, Y. Umniyati. Towards realism interpretation of wave mechanics based on Maxwell equations in quaternion space and some implications, including Smarandache’s hypothesis. CTPNP 2019, published 18th May 2020. AIP Conference Proceedings 2234, 040008 (2020); https://doi.org/10.1063/5.0008139