A Theoretical Approach to Selection of a Biologically Active Substance in Ultra-Low Doses for Effective Action on a Biological System

Liudmila Borisovna Boldyreva

doi:10.1055/s-0038-1632362

Homeopathy, Table of Contents

Homeopathy 2018; 107(02): 137-142
DOI: 10.1055/s-0038-1632362

Original Research Article

The Faculty of Homeopathy

A Theoretical Approach to Selection of a Biologically Active Substance in Ultra-Low Doses for Effective Action on a Biological System

Liudmila Borisovna Boldyreva

¹The State University of Management, Moscow, Russian Federation, Institute of Information Systems

› Author Affiliations

Abstract

Background and Aim An approach is offered to selecting a biologically active substance (BAS) in ultra-low dose for effective action on a biological system (BS). The technique is based on the assumption that BAS in ultra-low doses exerts action on BS by means of spin supercurrent emerging between the spin structure created by BAS, on the one hand, and the spin structure created by BS, on the other hand. According to modern quantum-mechanical concepts, these spin structures may be virtual particles pairs having precessing spin (that is, be essentially spin vortices in the physical vacuum) and created by the quantum entities that BAS and BS consist of. The action is effective provided there is equality of precession frequencies of spins in these spin structures.

Method In this work, some methods are considered for determining the precession frequencies of spins in virtual particles pairs: (1) determination of energy levels of quantum entities that BS and BAS consist of; (2) the use of spin-flip effect of the virtual particles pair spin, the effect being initiated by action of magnetic vector potential (the spin-flip effect takes place when the varied frequency of the magnetic vector potential equals the precession frequency of the spin); (3) determining the frequencies of photons effectively acting on BS.

Results and Conclusion It is shown that the effect of BAS in ultra-low doses on BS can be replaced by the effect of a beam of low-intensity photons, if the frequency of photons equals the precession frequency of spin in spin structures created by BS. Consequently, the color of bodies placed near a biological system is able to exert an effective action on the biological system: that is “color therapy” is possible. It is also supposed that the spin-flip effect may be used not only for determining the precession frequency of spin in spin structures created by BS but also for therapeutic action on biological systems.

Keywords

homeopathy - ultra-low doses - spin supercurrent - magnetic vector potential - virtual particles - spin-flip effect

Full Text

References

References
1 Boldyreva LB. An analogy between effects of ultra-low doses of biologically active substances on biological objects and properties of spin supercurrents in superfluid ³He-B. Homeopathy 2011; 100: 187-193
2 Boldyreva LB. The physical aspect of action of biologically active substances in ultra-low doses and low-intensity physical factors on biological objects: spin supercurrents. Altern Integr Med 2013; 2: 6 . doi:10.4172/2327-5162.1000110
3 Borovik-Romanov AS, Bunkov YM, Dmitriev VV, Mukharskiy YM, Sergatskov DA. Investigation of spin supercurrents in ³He-B. Phys Rev Lett 1989; 62: 1631-1634
4 Dmitriev VV, Fomin IA. Homogeneously precessing domain in ³He-B: formation and properties. J Phys Condens Matter 2009; 21: 164202 . doi: 10.1088/0953-8984/21/16/164202
5 Bunkov YM. Spin superfluidity and coherent spin precession. J Phys Condens Matter 2009; 21: 164201 . doi: 10.1088/0953-8984/21/16/164201
6 Burlakova EB. The effect of supersmall doses [article in Russian]. Herald Russ Acad Sci 1994; 64: 425-431
7 Mandl F, Shaw G. Quantum Field Theory. Revised edition, Chichester, UK: John Wiley and Sons; 1984/ 2002: 56
8 Purcell EM. Electricity and magnetism. Berkeley Physics Course. Vol. 2. New York, NY: Mc.Graw-Hill Book Company; 1965
9 McKinstry CS. Nuclear magnetic resonance imaging in medicine. Ulster Med J 1986; 55: 97-111
10 Boldyreva LB. Quantum correlation – spin supercurrents. Int J Quant Inf 2014; 12: 1450007(13) . doi: 10.1142/S0219749914500075
11 Nakatani Y. On the nature of the acupuncture points and meridians. J. Jpn Orient Med 1953; 3: 39-49
12 Sargsyan RS, Karamyan GG, Avagyan MN. Noninvasive assessment of physiologic state of living systems. J Altern Complement Med 2010; 16: 1137-1144
13 Wichmann EH. Quantum physics. Berkeley Physics Course. vol IV. New York, NY: Mc.Graw-Hill Book Company; 1971
14 Aharonov Y, Bohm D. Significance of electromagnetic potentials in quantum theory. Phys Rev 1959; 115: 485-491
15 Boldyreva LB. The model of magnetic field based on the concepts of virtual particles and quantum harmonic oscillators possessing zero-point energy. Int J Phys 2016; 4: 26-31
16 Sedov LI. A Course in Continuum Mechanics. Vol. 1–4. Wolters-Noordhoff: Groningen; 1971-1972
17 Hartmann F. The Life of Philippus Theophrastus Bombast of Hohenheirn, Known by the Name of Paracelsus and the Substance of his Teachings, Concerning Cosmology, Anthropology, Pneumatology, Magic and Sorcery, Medicine, Alchemy and Astrology, Philosophy and Theosophy. London: Redway; 1887
18 Fröhlich H. Theoretical physics and biology. In: Fröhlich H. , ed. Biological Coherence and Response to External Stimuli. Springer-Verlag Berlin: Heidelberg; 1988: 1-24
19 Trukhan EM. Impact of weak electro-magnetic fields on biological activity of water phase [article in Russian]. Computer Research and Modeling 2009; 1: 101-108