Journal of Cosmology, Filaments and Astrobiology

Journal DOI

https://doi.org/10.54216/JCFA

Submit Your Paper

2834-0221ISSN (Online)

Volume 1 , Issue 1 , PP: 08-15, 2022 | Cite this article as | XML | Html | PDF | Full Length Article

Remark on Recent Experimental Findings supporting Smarandache’s Quantum Sorites Paradoxes, Superluminal Hypothesis, and SubQuantum Kinetic Model of Electron

Victor Christianto 1 * , Robert N. Boyd 2

  • 1 Malang Institute of Agriculture (IPM), East Java, Indonesia - (victorchristianto@gmail.com)
  • 2 Physics advisor for Princeton Biotechnology Corp., Barrington, NJ, 08007 USA - (rnboyd@comcast.net)
  • Doi: https://doi.org/10.54216/JCFA.010101

    Received: January 05, 2022 Accepted: May 03, 2022
    Abstract

    Statement of the Problem: Smarandache Hypothesis states that there is no speed limit of anything, including light and particles. While the idea is quite simple and based on known hypothesis of quantum mechanics, called Einstein-Podolski-Rosen (EPR) paradox, in reality such a superluminal physics seems still hard to accept by majority of physicists. Here we review some experiments to support superluminal physics and also findings to explain Smarandache Quantum Paradoxes and Quantum Sorites Paradox. We also touch briefly on new experiment on magneton, supporting SubQuantum Kinetic Model of Electron. Aim of this paper: We discuss some experimental results which  will likely open new directions of research toward evidence-based physics.Conclusion & Significance: Multiexperimental findings assessment allows one to verify conjectures by Florentin Smarandache & RNB, namely: Smarandache Hypothesis, Smarandache Quantum Sorites Paradoxes and SubQuantum Kinetic Model of Electron.

    Keywords :

    Smarandache hypothesis , Smarandache Quantum Sorites Paradoxes , and SubQuantum Kinetic model of electron.

    References

    [1] 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.

    [2] E. Weisstein, Smarandache Hypothesis, ScienceWorld Encyclopedia, Wolfram,

    http://scienceworld.wolfram.com/physics/SmarandacheHypothesis.html.

    [3] F. Smarandache. Quantum quasi paradox and Quantum Sorites Paradox. Prog. Phys. 1, 2005.

    [4] RN. Boyd. Resolution of the Smarandache Quantum Paradoxes. Prog. Phys. Vol. 15 issue 3,

    2019.

    [5] E Markoulakis et al. Real time observation of a stationary magneton. Results in Physics vol.

    15, Dec. 2019. url: https://doi.org/10.1016/j.rinp.2019.102793

    [6] L A Glinka. “Towards Superluminal Physics: Compromising Einstein's Special Relativity

    and Faster-Than-Light Particles.” Applied Mathematics and Physics, vol. 2, no. 3, 2014: 94-102.

    doi: 10.12691/amp-2-3-5.

    [7] V. Christianto, F. Smarandache, & R.N. Boyd. Electron Model Based on Helmholtz’s

    Electron Vortex Theory & Kolmogorov’s Theory of Turbulence. Prespacetime Journal, Volume

    10, Issue 1 January 2019 , pp. 139-148. url: www.prespacetime.com

    [8] E. Charpentier, A. Lesne N. Nikolski. Kolmogorov heritage in mathematics. Heidelberg:

    Springer-Verlag Berlin Heidelberg, 2007, p. 25.

    [9] J. Vranjes. Tripolar vortex in plasma flow. Planetary and Space Science 47,1531-1535,

    1999.

    [10] M.N. Nishino et al., A case study of Kelvin-Helmholtz vortices on both flanks of the

    Earth’s magnetotail. Planetary and Space Science 59, 2011.

    [11] World Heritage Encyclopedia. Aspect experiment. url:

    http://self.gutenberg.org/articles/eng/Aspect_experiment

    [12] F. Smarandache. There Is No Speed Barrier for a Wave Phase Nor for Entangled Particles.

    Prog. Phys. 1, 2005.

    [13] A. Korzybski. A non-Aristotelian system and the necessity of rigour in mathematics and

    physics. Supplement III in A. Korzybski, Science and Sanity.

    [14] HL. Drake. The general semantics and science fiction of Robert Heinlein and A.E. Van

    Vogt. url: http://www.generalsemantics.org/wp-content/uploads/2011/05/articles/gsb/gsb41-

    drake.pdf

    [15] G. Le Bon. Evolution of Matter, 1906. url: http://rexresearch.com/lebonmat/lebonmat.htm

    [16] Hans Dehmelt. Remark on the occasion of receiving the 1980 Ismar Award. url:

    https://www.weizmann.ac.il/ISMAR/sites/ISMAR/files/bulletin/BMR_04_017-031_1982.pdf

    [17] RN. Boyd. Refutation of Heisenberg uncertainty. See: http://worlds-withinworlds.

    org/refutationofheisenberg.php (accessed on 2021)

    [18] RN. Boyd. Rational Quantum Physics. St Petersburg, 2006. url:

    http://www.unusualresearch.com/doku.php/sqif (accessed on 2021)

    [19] V. Christianto & F. Smarandache. Modelling virus as elastic sphere in Newtonian fluid

    based on 3d Navier-Stokes equations. J. Nanosci. Nanomed. Vol.2 No.1, March-2018.

    [20] V. Christianto & F. Smarandache. A Newtonian-vortex cosmology model from solar system

    to galaxy to large scale structures: Navier-Stokes-inspired cosmography. J Mod Appl Phys.

    1(1):10-13, 2017.

    [21] L. Montagnier et al. DNA waves and water. J. Phys.: Conf. Ser. 306 012007, 2011. url:

    https://iopscience.iop.org/article/10.1088/1742-6596/306/1/012007/pdf. doi:10.1088/1742-

    6596/306/1/012007

    [22] Robert O. Young, Second Thoughts about Viruses, Vaccines, and the HIV/ AIDS

    Hypothesis - Part 1. International Journal of Vaccines & Vaccination. url:

    https://medcraveonline.com/IJVV/second-thoughts-about-viruses-vaccines-and-the-hiv-aidshypothesis---

    part-1.html. See also [21a] H. Tan and G. Niu. Endogenous origin of viruses. Med

    Hypotheses 1997 Dec;49(6):501-4. url: https://pubmed.ncbi.nlm.nih.gov/9466373/. doi:

    10.1016/s0306-9877(97)90068-2.

    [23] F. Smarandache. Absolute Theory of Relativity & Parameterized Special Theory of

    Relativity & Noninertial Multirelativity, Somipress, Fès, Morocco, 92 p., 1982;

    http://fs.unm.edu/ParameterizedSTR.pdf

    [24] F. Smarandache, New Relativistic Paradoxes and Open Questions, Somipress, Fès,

    Morocco, 126 p., 1983; http://fs.unm.edu/NewRelativisticParadoxes.pdf

     

    Cite This Article As :
    Christianto, Victor. , N., Robert. Remark on Recent Experimental Findings supporting Smarandache’s Quantum Sorites Paradoxes, Superluminal Hypothesis, and SubQuantum Kinetic Model of Electron. Journal of Cosmology, Filaments and Astrobiology, vol. , no. , 2022, pp. 08-15. DOI: https://doi.org/10.54216/JCFA.010101
    Christianto, V. N., R. (2022). Remark on Recent Experimental Findings supporting Smarandache’s Quantum Sorites Paradoxes, Superluminal Hypothesis, and SubQuantum Kinetic Model of Electron. Journal of Cosmology, Filaments and Astrobiology, (), 08-15. DOI: https://doi.org/10.54216/JCFA.010101
    Christianto, Victor. N., Robert. Remark on Recent Experimental Findings supporting Smarandache’s Quantum Sorites Paradoxes, Superluminal Hypothesis, and SubQuantum Kinetic Model of Electron. Journal of Cosmology, Filaments and Astrobiology , no. (2022): 08-15. DOI: https://doi.org/10.54216/JCFA.010101
    Christianto, V. , N., R. (2022) . Remark on Recent Experimental Findings supporting Smarandache’s Quantum Sorites Paradoxes, Superluminal Hypothesis, and SubQuantum Kinetic Model of Electron. Journal of Cosmology, Filaments and Astrobiology , () , 08-15 . DOI: https://doi.org/10.54216/JCFA.010101
    Christianto V. , N. R. [2022]. Remark on Recent Experimental Findings supporting Smarandache’s Quantum Sorites Paradoxes, Superluminal Hypothesis, and SubQuantum Kinetic Model of Electron. Journal of Cosmology, Filaments and Astrobiology. (): 08-15. DOI: https://doi.org/10.54216/JCFA.010101
    Christianto, V. N., R. "Remark on Recent Experimental Findings supporting Smarandache’s Quantum Sorites Paradoxes, Superluminal Hypothesis, and SubQuantum Kinetic Model of Electron," Journal of Cosmology, Filaments and Astrobiology, vol. , no. , pp. 08-15, 2022. DOI: https://doi.org/10.54216/JCFA.010101