Journal of Cosmology, Filaments and Astrobiology
Journal DOI
2834-0221ISSN (Online)
Volume 1 , Issue 2 , PP: 23-35, 2022 | Cite this article as | XML | Html | PDF | Full Length Article
Alexander B. Ilin 1 *
Doi: https://doi.org/10.54216/JCFA.010205
Superluminal contact with extraterrestrial civilizations can be carried out either by observing the appearance of regular gaps in the CMB relic microwave background or by manipulating the state of quantum fluctuation using the dynamic Casimir effect; potentially, it is also possible to observe patterns in the relic background of Goldstone bosons – axions. It is more correct to evaluate the search for a signal on an axion background of noise as a spectrum of intermediate NeutralA - gaps in various relict backgrounds that form a recognizable pattern of NonA formed NeutralA and AntiA, which is the neutrosophic signal of NonA for us. Observation of the NonA neutrosophic signal for axions is possible with scalar/vector potential detectors based on the Aharonov-Bohm effect or on the basis of the Wolf-Bragg`s condition for X-ray diffraction/interference. The creation of axion telescopes with matrices of nano- or micron-sized pixels for observing the cosmic NonA for Rφ and RA will make it possible to establish superluminal Contact of Civilizations.
superluminal FTL communication , axion, neutrosophy , axiom system , extraterrestrial , , , civilization
[1] Vervoort, Louis. Probability Theory as a Physical Theory Points to Superdeterminism, Entropy 21(9) :
848, August 2019, DOI: 10.3390/e21090848
[2] Ilin, Alexander B. Contact with extraterrestrial civilizations performs the superluminal Shayda-
Maxwellian robot performs cross linking The Light of Other Days in the form of metamorphosis the megascopic
active medium. Unpublished report. May 02, 2016
[3] Ильин А.Б. Сигнал прерывания Великого Молчания. Квантовая Магия, том 10, вып. 1, стр. 1153-
1160 2013; also [3a] Alexander Ilin. Interrupt signal Great Silence. http://www.quantmagic.narod.ru (accessed
Aug. 2022)
[4] PLANCK Collaboration. Planck 2018 results. VII. Isotropy and statistics of the CMB.
arXiv:1906.02552, 2019.
[5] Betz, M., F. Caspers, M. Gasior, M. Thumm, & S. W. Rieger. First results of the CERN Resonant WISP
Search (CROWS). arXiv:1310.8098v1 [physics.ins-det], 30 Oct 2013.
[6] Smarandache, Florentin. A unifying field in logic: neutrosophic logic. Neutrosophy, neutrosophic set,
neutrosophic probability. 3rd ed. (Preface by C. T. Le), American Research Press, Rehoboth, 2003.
[7] Christianto, Victor, & Boyd, Robert N., 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. 1, No. 1, pp. 08-15, 2022, DOI:
https://doi.org/10.54216/JCFA.010101
[8] Smarandache, Florentin. Life at Infinite Speed. Arizona State University, Hayden Library, Special
Collections, Tempe, USA, 1972.
[9] Smarandache, Florentin There Is No Speed Barrier in the Universe and One Can Construct any Speed.
Bull. Pure Appl. Sci., Delhi, India 17D, 61, 1998. http://www.gallup.unm.edu/~smarandache/NoSpLim.htm.
(accessed Aug. 2022)
[10] Weisstein, Eric W. https://scienceworld.wolfram.com/physics/SmarandacheHypothesis.html
(accessed Aug. 2022)
[11] Kuz’menko D.S., Simonov Yu.A., & Shevchenko V.I. Vacuum, confinement, and QCD strings in the
vacuum correlator method. Phys. Usp. 47, 1–15, 2004, DOI: 10.1070/PU2004v047n01ABEH001696
[12] Рубаков В.А., Тиняков П.Г., V.A. Rubakov, & P.G. Tinyakov Модификация гравитации на больших
расстояниях и массивный гравитон. Infrared-modified gravities and massive gravitons. Успехи физических
наук. Август 2008, Том 178, № 8, с. 785-822. Uspekhi Fizicheskikh Nauk 178(8), 85 - 822, 2008, DOI:
10.3367/UFNr.0178.200808a.0785
[13] Миронов В. Л., Миронов С. В. Пространственно - временные седеоны и их применение в
релятивистской квантовой механике и теории поля. Институт физики микроструктур РАН, Нижний
Новгород, 2014, 129 с. http://ipmras.ru/~Mironov/Publications/SEDEONS.pdf (accessed Aug. 2022)
[14] Davoudiasl, Hooman. Dark matter repulsion could thwart direct detection. Phys. Rev. D 96, 095019 –
20 November 2017, DOI: https://doi.org/10.1103/PhysRevD.96.095019
[15] Farnes, J.S.. A unifying theory of dark energy and dark matter: Negative masses and matter creation
within a modified ΛCDM framework. arXiv:1712.07962v2, 26 Oct. 2018, DOI https://doi.org/10.1051/0004-
6361/201832898
[16] Б. Понтекорво. Нейтринные эксперименты и вопрос о сохранении лептонного заряда. ЖЭТФ,
1967, т. 53, вып. 5, с. 1717-1725.
[17] А.В. Журухина. Аксионы. Эксперименты по их регистрации. Сборник материалов. Под ред. Б. С.
Ишханова, О. В. Кечкина, М. Е. Степанова. Свидетельства существования темной материи. Темная
материя. М.: Университетская книга, 2014 г. c. 136–147. http://nuclphys.sinp.msu.ru/bm/bm11.htm (accessed
Aug. 2022)
[18] Amsler, C. (University of Z¨urich), T. DeGrand (University of Colorado, Boulder), and B. Krusche
(University of Basel), http://pdg.lbl.gov/2013/reviews/rpp2012-rev-quark-model.pdf, Revised Aug. 2011
(accessed Aug. 2022)
[19] Дополнения к статье "Трансцендентный тахион" в сборнике статей XXXVIII международной
научной конференции "ТЕХНОКОНГРЕСС" Издательского дома "Плутон", 11 февраля 2019 года, с.26-
44, URL: https://t-nauka.ru/wp-content/uploads/k38.pdf, http://samlib.ru/p/putenihin_p_w/izo-dop.shtml
(accessed Aug. 2022)
[20] Ященко И.В. Парадоксы теории множеств. Серия: «Библиотека ―Математическое
просвещение‖». М.: МЦНМО, 2002. —40с. :ил https://forany.xyz/ax/d1/1/a344/Yashenko_I_V_
Paradoksi_teorii_mnojestv.pdf (accessed Aug. 2022)
[21] Каку М. Введение в теорию суперструн: Пер. с англ.- М.: Мир, 1999. - 624 с.164
[22] А. А. Митюшин Большая советская энциклопедия, 1969 — 1978 гг, в 30 томах.
https://runivers.ru/philosophy/lib/authors/author64140/ (accessed Aug. 2022)
[23] Клайн М. Математика. Утрата определѐнности. М.: Мир, с. 316-317, 1984.
[24] Charles Baily Perspectives in Quantum Physics: Epistemological, Ontological and Pedagogical. An
investigation into student and expert perspectives on the physical interpretation of quantum mechanics, with
implications for modern physics instruction. ArXiv:1109.1295, 2011.
[25] Грин Брайан. Элегантная Вселенная. Суперструны, скрытые размерности и поиски
окончательной теории. Издательство ЛКИ Москва, с. 259-260, 2008.
[26] Казаков Д.И. Суперструны, или за пределами стандартных представлений. Успехи физических
наук. г. Декабрь Том 150, вып. 4 с. 561-575. 1986
[27] https://nplus1.ru/material/2019/12/22/simple-math (accessed Aug. 2022)
[28] https://tproger.ru/translations/neural-network-zoo-1/ (accessed Aug. 2022)
[29] Hashimoto, Koji. AdS/CFT as a deep Boltzmann machine. Phys. Rev. D., arXiv:1903.04951 [hepth]
(or arXiv:1903.04951v1, DOI: 10.1103/PhysRevD.99.106017
[30] Верин О.Г. Неизвестное электромагнитное поле и направления приоритетных исследований.
https://textarchive.ru/c-1856980.html (accessed Aug. 2022)
[31] Terning, John & Christopher B. Verhaaren. Detecting Dark Matter with Aharonov-Bohm.
arXiv:1906.00014v1 [hep-ph], 31 May 2019
[32] Rollbuhler, Jorg, Arkadi A. Odintsov. Aharonov-Bohm effect in circular carbon nanotubes. arXiv:condmat/
9906267 cond-mat.mes-hall, DOI: 10.1016/S0921-4526(99)01774-3
[33] Tonomura, Akira. The Aharonov-Bohm effect and its applications to electron phase microscopy. Proc
Jpn Acad Ser B Phys Biol Sci. 2006 Apr; 82(2): 45–58.
[34] Webb, R.A.. Washburn S. Квантовоинтерференционные флуктуации в разупорядоченных металлах
// Физика за рубежом 1990. Сер. А: Сб. статей / Пер. с англ., франц. - М.: Мир, 184 с., 1990.
[35] Nowak, M. P. & P. Wojcik Probing Andreev reflection reach in semiconductor-superconductor hybrids
by Aharonov-Bohm effect. arXiv:1809.11111v2 [cond-mat.mes-hall], Jan 2019
