The article considers the
quantum information channel (QIC) described by the byuon theory (BT)—the theory
of the appearance of the world around us: physical space, the world of ultimate
particles, living matter etc., based on the interaction of non-observable
objects (the byuons) nature. The information transporter in the QIC is object
4b (four contact interaction of the four vacuum states of the byuon), carrying
information about the information image of the object in physical space—a
quantum medium formed by objects 4b. The article proposes a hypothetical model
explaining the effects of ultra-high dilutions of chemical and biological
substances (UHDS), the search for the physical nature of the action of which is
currently underway. UHDS could be the base of the pharmaceutical industry of
the future.
Shellam, G.R. and Nosal, G.J. (1968) Mechanism of Induction of Immunological Tolerance IV. The Effects of Ultra-Low Doses of Flagellin. Immunology, 14, 273-284.
[3]
Davenas, E., Poitevin, B. and Benveniste, J. (1987) Effect on Mouse Peritoneal Macrophages of Orally Administered Vey High Dilutions of Silica. European Journal of Pharmacology, 135, 313-319. https://doi.org/10.1016/0014-2999(87)90680-7
[4]
Burlakova, E.B., Konradov, A.A. and Maltzeva, E.L. (2003) Action of Ultra-Small Doses of Biologically Active Substances and Low-Intensity Physical Factors. Khimicheskaya Fizika, 22, 21-40.
[5]
Baurov, Yu.A. (2022) About Spatial Homeostasis, Ultra-High Dilutions of Substances and Quantum Information Channel within the Framework of Byuon Theory. Nova Science, Hauppauge.
[6]
Baurov, Yu.A. (2011) Byuon, Quantum Information Channel, Consciousness and Universe. Open Journal of Microphysics, 1, 35-39. https://doi.org/10.4236/ojm.2011.12007
[7]
Baurov, Yu.A. (2000) On the Structure of Physical Vacuum and a New Interaction in Nature (Theory, Experiment and Applications). Nova Science, Hauppauge.
[8]
Baurov, Yu.A. (2004) Global Anisotropy of Physical Space: Experimental and Theoretical Basis. Nova Science, Hauppauge.
[9]
Baurov, Yu.A. (2016) Theory of Byuon and Global Anisotropy of Physical Space. LAP Lambert Academic Publishing, Saarbrücken.
[10]
Baurov, Yu.A., Babaev, Yu.N. and Ablekov, V.K. (1981) On One Model of Weak, Strong and Electomagnetic Interactions. Doklady Akademii Nauk (DAN) SSSR, 259, 1080-1084.
[11]
Babaev, Yu.N. and Baurov, Yu.A. (1984) On the Origin of Fundamental Constants and Some Quantum Numbers. Preprint P-0362 of Institute for Nuclear Research of Russian Academy of Sciences (INR RAS), Moscow.
[12]
Dirac, P.A. (1983) Ways of Physics. Energoatomizdat, Moscow.
[13]
Nelippa, N.F. (1977) Physics of Elementary Particles. Vysshaya Shkola, Moscow.
[14]
Baurov, Yu.A. (2002) Structure of Physical Space and Nature of de Broglie Waves (Theory and Experiment). Annales de Fondation de Broglie, 27, 443-461.
[15]
Baurov, Yu.A. and Malov, I.F. (2007) On the Nature of Dark Matter and Dark Energy.
[16]
Baurov, Yu.A., Klimenko, E.Yu. and Novikov, S.I. (1992) Experimental Observation of Space magnetic Anisotropy. Physics Letters A, 162, 32-34. https://doi.org/10.1016/0375-9601(92)90954-K
[17]
Baurov, Yu.A. (1993) Space Magnetic Anisotropy and a New Interaction in Nature. Physics Letters A, 181, 283-288. https://doi.org/10.1016/0375-9601(93)90609-4
[18]
Baurov, Yu.A., et al. (2003) Experimental Investigation of the Distribution of Pulsed-Plasma-Generator Radiation at Its Varios Spatial Orientation and Global Anisotropy of Space. Physics Letters A, 311, 512-523. https://doi.org/10.1016/S0375-9601(03)00567-X
[19]
Baurov, Yu.A., Znak, A.G. and Farafonov, V.G. (2007) Experimental Investigation of Heat Content in the Jet of Magnetoplasmadynamic Accelerator in Accordance with Its Spatial Orientation. In: Gerard, F., Ed., Advances in Plasma Physics, Nova Science, New York, Vol. 5, 179-196.
[20]
Baurov, Yu.A., Shpitalnaya, A.A. and Malov, I.F. (2005) Global Anisotropy of Physical Space and Velocities of Pulsars. International Journal of Pure & Applied Physics, 1, 71-88.
[21]
Baurov, Yu.A. (2012) The Anisotropy of Cosmic Rays and the Global Anisotropy of Physical Space. Journal of Modern Physics, 3, 1744-1748. https://doi.org/10.4236/jmp.2012.311216
[22]
Baurov, Yu.A. (2017) The New Non-Gauge Interaction and Its Use at Thermal Energy Plants. Bulletin of the Russian Academy of Sciences: Physics, 81, 759-762. https://doi.org/10.3103/S1062873817060053
[23]
Ernst, E. (2002) A Systematic Review of Systematic Reviews of Homeopathy. British Journal of Clinical Pharmacology, 54, 577-582. https://doi.org/10.1046/j.1365-2125.2002.01699.x
[24]
Klein, S.D. and Wolf, U. (2016) Comparison of Homeopathic Globules Prepared from High and Ultra-High Dilutions of Various Starting Materials by Ultraviolet Light. Complementary Therapies in Medicine, 24, 111-117. https://doi.org/10.1016/j.ctim.2015.12.017
[25]
Tiezzi, E. (2003) NMR Evidence of a Supra Molecular Structure of Water. Annales de Chimie, 93, 471-476.
[26]
Epstein, O.I. (2013) The Phenomenon of Release-Activity and the Spatial Homeostasis Hypothesis. Uspehi of Physiologicheskihnauk, 43, 54-76.
[27]
Baurov, Yu.A., et al. (2013) Protecting the Planet from the Asteroid Hazard. International Journal of Pure and Applied Physics, 9, 151-168.
[28]
Playfair, J.H.L. and Chain, B.M. (2008) Immunology at a Glance. Blackwell Publishing, Hoboken.
[29]
Roitt, I., Brostoff, J. and Male, D. (1998) Immunology. Mosby, London.
[30]
Epstein, O.I. (2017) The Release-Activity and Modern View to Homeopathy and Non Homeopathy. Russian Academy of Medic Science, Moscow.
[31]
Gamayurov, V.S. and Rzhechitskaya, L.E. (2018) Food Chemistry: A Textbook for University Students. Dobrosvet, Moscow.
[32]
Datta, S. and Khuda-Bukhsh, A.R. (1998) Efficacy of a Potentized Homeopathic Drug, Stannum-30, in Modifying Clastogenic Effects of Stannnous Chloride in Mice. Perspectives in Cytology and Genetics, 9, 345-351.
[33]
Banerjee, P., Bhattacharyya, S.S., Pathak, S., Naoual, B., Belon, P. and Khuda-Bukhsh, A.R. (2008) Comparative Efficacy of Two Microdoses of a Potentized Homeopathic Drug, Arsenicum Album, to Ameliorate Toxicity Induced by Repeated Sublethal Injections of Arsenic Trioxide in Mice. Pathobiology, 75, 156-170. https://doi.org/10.1159/000124976
[34]
Banerjee, P., Biswas, S.J., Belon, P. and Khuda-Bukhsh, A.R. (2007) A Potentized Homeopathic Drug, Arsenicum Album 200, Can Ameliorate Genotoxicity Induced by Repeated Injections of Arsenic Trioxide in Mice. Journal of Veterinary Medicine. A, Physiology, Pathology, Clinical Medicine, 54, 370-376. https://doi.org/10.1111/j.1439-0442.2007.00945.x
[35]
Kolisko, L. (1923-1959) Physiological and Physical Proof of the Effectiveness of the Smallest Entities, Arbeitsgem. Working Group of Anthroposophic Doctors, Stuttgart.
[36]
Konovalov, A.I. and Ryzhkina, I.S. (2014) Formation of Nanoassociates as a Key to Understanding of Physicochemical and Biological Properties of Highly Dilute Aqueous Solutions. Russian Chemical Bulletin, 63, 1-14. https://doi.org/10.1007/s11172-014-0388-y
[37]
Smirnov, D.N., Syroyeshkin, A.V., Lapshin, V.B., Balyshev, A.V. and Lebedev, I.M. (2004) Supramolecular Water Complexes. Russian Chemical Journal, 48, 125-130.
[38]
Goncharuk, V.V., Smirnov, V.N., Syroeshkin, A.V. and Malyarenko, V.V. (2007) Clusters and Gigantic Heterophase Water Clusters. Journal of Water Chemistry and Technology, 29, 1-8. https://doi.org/10.3103/S1063455X07010018
[39]
Goncharuk, V.V., Syroeshkin, A.V., Pleteneva, T.V., Uspenskaya, E.V., Levitskaya, O.V. and Tverdislov, V.A. (2017) On the Possibility of Chiral Structure-Density Submillimeter Inhomogeneities Existing in Water. Journal of Water Chemistry and Technology, 39, 319-324. https://doi.org/10.3103/S1063455X17060029
[40]
Ho, M.V. (2014) Large Supra Molecular Water Clusters Caught on Camera—A Review. Water, 6, 1-12.
[41]
Bellavite, P., Marzotto, M., Olioso, D., Moratti, E. and Conforti, A. (2014) High-Dilution Effects Revisited. 1. Physicochemical Aspects. Homeopathy, 103, 4-21. https://doi.org/10.1016/j.homp.2013.08.003
[42]
Elia, V. (2012) Physico-Chemical Properties of Perturbed Water: Facts and Enigmas. International Journal of High Dilution Research, 11, 110-112. https://doi.org/10.51910/ijhdr.v11i40.562
[43]
Ellia, V., Ausanio, G., Gentile, F., Germano, R., Napoli, E. and Niccoli, M. (2014) Experimental Evidence of Stable Water Nanostructures in Extremely Dilute Solutions, at Standard Pressure and Temperature. Homeopathy, 103, 44-50. https://doi.org/10.1016/j.homp.2013.08.004
[44]
Demangeat, J.-L. (2009) NMR Water Proton Relaxation in Unheated and Heated Ultrahigh Aqueous Dilutions of Histamine: Evidence for an Air-Dependent Supra Molecular Organization of Water. Journal of Molecular Liquids, 144, 32-39. https://doi.org/10.1016/j.molliq.2008.07.013
[45]
Penkov, N.V. (2019) Peculiarities of the Perturbation of Water Structure by Ions with Various Hydration in Concentrated Solutions of CaCl2, CsCl, KBr, and KI. Physics of Wave Phenomena, 27, 128-134. https://doi.org/10.3103/S1541308X19020079
[46]
Johnson, K. (2012) Terahertz Vibrational Properties of Water Nanoclusters Relevant to Biology. Journal of Biological Physics, 38, 85-95. https://doi.org/10.1007/s10867-011-9238-4
[47]
Kokornaczyk, M.O., Würtenberger, S. and Baumgartner, S. (2020) Impact of Succussion on Pharmaceutical Preparations Analyzed by Means of Patterns from Evaporated Droplets. Scientific Reports, 10, Article No. 570. https://doi.org/10.1038/s41598-019-57009-2
[48]
Jeong, K. (2021) Approximate Private Quantum Channels on Fermionic Gaussian Systems. Journal of Quantum Information Science, 11, 1-12. https://doi.org/10.4236/jqis.2021.111001
[49]
Majumdar, M. (2018) Quantum Information Processing Using the Exchange Interaction. Journal of Quantum Information Science, 8, 139-160. https://doi.org/10.4236/jqis.2018.84010
[50]
Shannon, C.E. (1948) A Mathematical Theory of Communication. Bell System Technical Journal, 27, 379-423, 623-656. https://doi.org/10.1002/j.1538-7305.1948.tb00917.x
[51]
Kholmogorov, A.I. (1987) Information Theory and Theory of Algorithms. Nauka, Moscow. (In Russian)
