DOI: 10.14704/nq.2016.14.4.959

Gravicommunication, Subjectivity and Quantum Entanglement

Evgeny A. Novikov


In this work gravicommunication (GC) is introduced, as a new form of communication (different from the classical gravitational waves). GC involves gravitons (particles of gravitation) and manifests itself, particularly, in our subjective experiences. This research is based on quantum modification of the general relativity. The modification includes effects of production /absorption of gravitons, which turn out to have small, but finite mass and electric dipole moment. It is shown, that such gravitons form the dipole Bose-Einstein condensate, even for high temperature. The theory (without fitting parameters) is in good quantitative agreement with cosmological observations. In this theory we got an interface between gravitons and ordinary matter, which very likely exist not only in cosmos, but everywhere, including our body and, especially, our brain. Subjective experiences are considered as a manifestation of that interface. A model of such interface is presented and some new experimentally verifiable aspects of natural neural systems are considered. According to the model, GC can be superluminal, which will solve the problem of quantum entanglement. Probable applications of these ideas include health (brain stimulation), new forms of communication, computational capabilities, energy resources and weapons. Some developed civilizations in the universe may already master GC (with various applications) and so should we.


gravicommunication; quantum modification of general relativity; subjectivity; quantum entanglement

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Baez JC and Stay M. Physics, Topology, Logic and Computation: A Rosetta Stone, arXiv:0903.0340. 2009.

Baranov MA, Dalmonte M, Pupilto G and Zoller P. Condensed Matter Theory of Dipolar Quantum Gases, Chemical Review 2012; 112: 5012-5061.

Bohm D & Hiley BJ. The Undivided Universe, Routledge 1993; p.147-151.

Chefranov SG & Novikov EA. Hydrodynamic Vacuum Sources of Dark Matter Self-Generation in Accelerated Universe without Big Bang. J Exper Theor Phys 2010; 111(5): 731-743 [Zhur Eksper Theor Fiz 2010,138(5), 830-843]; see also arXiv:1012.0241v1 [gr-qc] (2010).

Chynoweth KM, Langston GI, Holley-Bockelmann KHI. Clouds in the M81 Filament as Dark Matter Minihalos--A Phase-Space Mismatch, arXiv:1009.5679 [astro-ph.CO]. 2010.

Damasio AR. The Feeling of What Happens, Harcourt Brace & Company,1999.

Freeman WJ, Rogers LJ, Holms MD, Silbergelt L. Spatial Spectral Analysis of Human Electrocorticograms Including the Alpha and Gamma Bands. J Neurosci Meth 2010; 95: 111-121.

Jirsa VK, Jantzen KJ, Fuchs F and Kelso JA. Spatiotemporal forward solution of the EEG and MEG using network modeling. IEEE Trans Med Imaging 2002; 21(5): 493-504.

Kak S, Penrose R and Hameroff S (ed's), Quantum Physics of consciousness, Cosmology Science Publishers, Cambridge, MA, 2011.

Komisaruk BR, Beyer-Flores C & Whipple B. The Science of Orgasm, The John Hopkins University Press, 2006.

Novikov EA. Mathematical Model for the Intermittency of Turbulent flow. Dokl Akad Nauk SSSR 1966; 168: 1279-1282 [Sov Phys Dokl 1966; 11: 497-500]

Novikov EA. Nonlinear Evolution of Disturbances in a (1+1)-Dimensional Universe. Zh Exper Teor Fiz. 1969; 57:938-940 [Soviet Physcs JETP 1970; v.30 (3): 512-513]

Novikov EA. Scale Similarity for Random Fields. Dokl Akad Nauk SSSR 1969a; 184: 1072-1075 [Sov Phys Dokl 1969; 14(2): 104-107]

Novikov EA. Intermittency and Scale Similarity in the Structure of a Turbulent Flow. Prikl Mat Mekh 1971; 5: 266-275 [Appl Math Mech 1971; 35: 231-240]

Novikov EA. The Effects of Intermittency on Statistical Characteristics of Turbulence and Scale Similarity of Breakdown Coefficients. Phys Fluids A 1990; 2(5): 814-820

Novikov EA. Infinitely Divisible Distribution in Turbulence. Phys Rev E 1994; 50(5): R3303-R3309.

Novikov EA. Dynamics of distributed sources. Physics of Fluids 2003; 15: L65-L70.

Novikov EA. Towards Modeling of Consciousness, arXiv:nlin.PS/0309043. 2003a.

Novikov EA. Quaternion Dynamics of the Brain, arXiv:nlin.PS/0311047. 2003b.

Novikov EA. Manipulating Consciousness, arXiv:nlin.PS/0403054. 2004.

Novikov EA. Modeling of Consciousness. Chaos, Solitons & Fractals 2005; 25: 1-5.

Novikov EA. Imaginary Fields, arXiv:nlin.PS/0502028. 2005a.

Novikov EA. Algebras of Charges, arXiv:nlin.PS/0509029. 2005b.

Novikov EA. Distributed Sources, Accelerated Universe, Subjectivity and Quantum Entanglement. arXiv:nlin/0511040v3. 2005c.

Novikov EA. Vacuum Response to Cosmic Stretching: Accelerated Universe and Prevention of Singularity. arXiv:nlin/06080050. 2006.

Novikov EA. Random Shooting of Entangled Particles in Vacuum. arXiv:0707.3299. 2007.

Novikov EA. Towards Conscious Stochastic Systems. arXiv:1008.0449v1[physics.gen-ph]. 2010.

Novikov EA. Age of the Universe and More. J of Cosmology 2015; 25: 13442-13452

Novikov EA. Ultralight Gravitons with Tiny Electric Dipole Moment are Seeping from the Vacuum, Modern Physics Letters A 2016; 31(15): 1650092.

Novikov EA. Quantum Modification of General Relativity, Electron. J Theor Phys 2016a; 13(35): 79-90.

Novikov EA & Chefranov SG. A Quiet Cosmology and Halo Around the Visible Universe. J of Cosmology 2011; 16: 6884-6891

Novikov EA, Novikov AE, Shannahof-Khalsa D, Schwartz B and Wright J. Scale-similar activity in the brain. Phys Rev E 1997; 56(3): R2387-R2392.

Novikov EA, Novikov AE, Shannahof-Khalsa D, Schwartz B and Wright J. Similarity Regime in the Brain Activity. Appl Nonl Dyn & Stoch Systems (ed. Kadtke J.& Bulsara A.), Amer Inst Phys., N. Y. 1997a; 299-302.

Penrose R. The Road to Reality, Jonathan Cape 2004, pp.582-589.

Ward LM. Dynamical Cognitive Science, Chapter 17, MIT Press, 2002, pp.145-153.

Widom A, Srivastava YN, Sivasubramanian S. Biological Nuclear Transmutations as a Source of Biophotons, arXiv:1102.4605 [physics.gen-ph]. 2011.

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The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

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