Open Access Open Access  Restricted Access Subscription Access

DOI: 10.14704/nq.2016.14.4.985

Phonon Guided Biology. Architecture of Life and Conscious Perception Are Mediated by Toroidal Coupling of Phonon, Photon and Electron Information Fluxes at Discrete Eigenfrequencies.

Dirk Klaas Fokke Meijer, Johannes Henk Geesink


Recently, a novel biological principle, revealing specific electromagnetic (EM) radiation frequencies that sustain life, was presented by us on the basis of an evaluation of 175 biological articles concerning beneficial effects of electromagnetic waves on the state of living cells. This concept was also based on a very similar range of frequencies emitted by a clay-mineral catalyst of RNA synthesis that may have been instrumental in the evolutionary initiation of first life, and therefore was tentatively designated as “Algorithm of Life”. The particular spectrum of frequency bands indicate that nature seems to employ discrete eigenfrequencies or standing waves that match precisely with an acoustic scale, with frequency ratios of 1:2, and closely approximated by 2:3, 3:4, 3:5, 4:5 and higher partials, allowing the discrete frequencies to be expressed in scalars. Our further studies clearly indicate now that this “life algorithm” pattern matches very well with the mathematical calculations of W. Ritz (1909) to compute eigenfrequencies of the sound induced geometric patterns. These have been earlier demonstrated through membrane vibration experiments of E. Chladni (1787), as well as several follow up studies from 1970-2013. Our findings, therefore, touch upon the science of acoustics, also since we show that the discrete frequencies could be modeled by music torus geometry. We postulate that the spectrum of EM frequencies detected, exhibit a quantum ordering effect on life cells on the basis of induction of geometric wave patterns. These constitute phonon/photon and electron wave energies, and quantum oscillations at far-infrared frequencies, that are communicated through toroidal constructive interference into scalar wave information. This idea is supported through our identification of potential intrinsic toroidal eigenfrequencies and minimal energy levels. The particular torus topology for information processing may also provide quantum error correction and protection against decoherence. Finally we propose a phonon guided organization of cells and integral brain function by three elementary processes: 1) A phonon mediated geometric organization of coherent arrangement of water molecules in cellular plasma, leading to instructive functional organization of cellular structures and metabolic processes and enabling the origination and sustainment of life processes. 2) Toroidal phonon/photon/electron coupling, protecting standing wave coherency of resonant cell components such as proteins and DNA. 3) A toroidal integration of electromagnetic and phononic fluxes of information into scalar standing waves, promoting quantum flux of informational excitons such as Ca2+- ions and electrons (polaron and polariton formation). Our brain, therefore, can be placed in a 4+1 geometry, supported by internal and external quantum states and makes use of geometrical defined information fluxes, that are converted to standing waves. The integration of these interrelated processes is considered to be instrumental in the creation of conscious perception and is proposed to be organized in a fractal, nested, 4-D toroidal geometry.


Life Algorithm, EM quantum frequencies, eigenstates/frequencies, toroidal information flux, Ritz calculation, Chladni geometric patterns, ordering of biological systems, phonon/photon coupling, toroidal coherence protection, Ca2+ waves and consciousness,

Full Text:

Full Text PDF


Adamskaya N, Dungel P, Mittermayr R, Hartinger J, Feichtinger G, Wassermann K. Light therapy by blue LED improves wound healing in an excision model in rats. Injury 2011; 42:917-21.

Adey WR. Biological effects of electromagnetic fields J. Cellular Biochemistry 1993; 51: 410-416.

Amoroso RL, Rauscher EA. The holographic anthropic multiverse, 2009, ISBN-13: 978-981-283-930-5.

Anonymus. Low-frequency collective motion in proteins and DNA. From Wikipedia, the free encyclopedia; 2016.

Arndt M, Juffmann T, Vedral, V. Quantum physics meets biology, HFSP J. 2009; 3:386-400.

Bateson G. Mind and Nature, Glasgow: Fontana/Collins 1979.

Battleday RM, Muller T, Clayton MS, Cohen Kadosh R. Mapping the mechanisms of transcranial alternating current stimulation. Front. Psychiatry 2014,

Baylor DA, Lamb TD, Yau KW. The membrane current of single rod outer segments. J Physiol. 1979; 288: 589–611.

Belyaev IY. Cell density response of E. Coli Cells to weak ELF Magnetic fields, Bioelectromagnetics 1998; 19:300-309.

Berges J, Boguslavski K, Schlichting S, Venugopalan R. Nonequilibrium fixed points in longitudinally expanding scalar theories: infrared cascade, Bose condensation and a challenge for kinetic theory. Phys Rev D 2015; 92: 096006.

Bermanseder T. Physical Consciousness in a Self-conscious Quantum Universe. J. Consciousness Exploration & Research, 2011; 2:162-179

Bishof M, Del Giudice E. Communication and the Emergence of Collective Behavior in Living Organisms: A Quantum Approach. Molecular Biology International 2013; Article ID 987549.

Bjerve A. The fractal-holographic universe.

Bogart de van W, Forshaw S. Re-constructing memory using quantized electronic music and a “Toridion byte” quantum algorithm: Creating images using zero logic quantum probabilistic neural networks (ZLQNN) 2015; DOI: 10.13140/RG.2.1.1359.2809.

Bohm D, Hiley BJ. An ontological basis for the quantum theory. Physics Reports 1987; 144: 323-348.

Boyden ES, Zhang F, Bamberg E, Nagel G, Deisseroth K. Millisecond-timescale, genetically targeted optical control of neural activity. Nat Neurosci. 2005; 8:1263–1268.

Brizhik L. Biological effects of pulsating magnetic fields: role of solitons, 2013;

Brumberg JC, Lionel G. Nowak, and David A. Mc Cormick. Ionic Mechanisms Underlying Repetitive High-Frequency Burst Firing in Supragranular Cortical Neurons, The Journal of Neuroscience, July 1, 2000, 20(13):4829–4843.

Burke RC, Gauthier MY, Rouleau N, Persinger MA. Experimental demonstration of potential entanglement of brain activity over 300 Km for pairs of subjects sharing the same circular rotating, angular accelerating Magnetic fields: verification by s-LORETA, QEEG measurements. J. Conscious. Explor. Res. 2013; 4: 35–44.

Caligiuri LM. Zero-Point Field, QED Coherence, Living Systems and Biophoton Emission. Open Journal of. Biophysics. 2015; 5: 21-34.

Carpenter DO. Human disease resulting from exposure to electromagnetic fields Rev Environ Health 2013; 28(4): 159–172.

Carter PJ. Imaginary Physics Philip J. Carter,, 2014.

Carter PJ. Quantum Spacetime and Consciousness, NeuroQuantology, 2014; 12: 46-75.

Chaplin MF. A proposal for the structuring of water, Biophys Chem. 2000; 24, 83(3): 211-21.

Chen, G, Coleman M, Zhou, JX. Analysis of Vibration Eigenfrequencies of a Thin Plate by the Keller-Rubinow Wave Method .1., Clamped Boundary-Conditions with Rectangular or Circular Geometry, Siam Journal on Applied Mathematics, 1991; 51(4): 967-983.

Chin AW, Huelga SF, Plenio MB. Coherence and Decoherence in Biological System: Principles of Noise Assisted Transport and the origin of Long-lived Coherences. Phil. Trans. Roy. Soc. 2012; A 370: 3638.

Chladni EFF. Entdeckungen über die Theorie des Klanges [Discoveries in the Theory of Sound], Leipzig, 1787; 78 pp. Reprint, Leipzig, 1980.

Chladni EFF. Neue Beyträge zur Akustik, by Ernst Florens Friedrich Chladni, 1817.

Choi DH, Lee KH, Kim JH, Kim MY, Lim JH, Lee J. Effect of 710 nm visible light irradiation on neurite outgrowth in primary rat cortical neurons following ischemic insult. Biochem. Biophys. Res. Commun 2012; 422: 272–279. 10.1016/j.bbrc.2012.04.147

Chou JJ, Li S, Klee CB, Bax A. Solution structure of Ca(2+)-calmodulin reveals flexible hand-like properties of its domains. Nature Structural Biology 2001; 8 (11): 990–7. doi:10.1038/nsb1101-990.

Cifra M, Fields J Z, Farhadi A. Electromagnetic cellular interactions. Progress in Biophysics and Molecular Biology 2010; xxx: 1-24, doi:10.1016/j.pbiomolbio.2010.07.003.

Cosic I. Macromolecular bioactivity: Is it resonant interaction between macromolecules? Theory and applications, 1994.

Craddock TJ, Hameroff SR, Ayoub AT, Klobukowski M, Tuszynski JA. Anesthetics act in quantum channels in brain microtubules to prevent consciousness. Current Topics in Medicinal Chemistry, 2015; 15: 523-533.

Craddock TJ, Tuszynski JA, Hameroff S. Cytoskeletal Signaling: Is Memory Encoded in Microtubule Lattices by CaMKII Phosphorylation? PLoS Comput. Biol. 2012; 8: e1002421.

Craddock, TJ, St George, M.; Freedman, H.; Barakat, K. H.; Damaraju, S.; Hameroff, S.; Tuszynski, J. A. Computational Predictions of Volatile Anesthetic Interactions with the Microtubule Cytoskeleton: Implications for Side Effects of General Anesthesia. PloS One; 2012, 7: e37251.

Davies MS, Norris WT. Vibration as a possible explanation for putative electromagnetic field effects: a case study on marine diatoms. INT. J. RADIAT. BIOL., OCTOBER, 2004; 80, NO. 10: 709–718.

Davies PCW. "Does quantum mechanics play a non-trivial role in life?" BioSystems; 2014; 78: pp. 69–79.

Davies PCW. Quantum fluctuations and life. Proceedings of SPIE - The International Society for Optical Engineering, 2004.

Del Giudice E, Doglia S, Milani M, Smith CW, Vitiello G. Magnetic flux quantization and Josephson behaviour in living systems. Physica Scripta 1989; Volume 40, Number 6.

Del Giudice E, Elia V, Tedeschi. A. Role of water in the living organisms. Neural Network World 2009; 19(4): 355e360.

Del Giudice E, Spinetti P S and Alberto Tedeschi A. Water Dynamics at the Root of Metamorphosis in Living Organisms Water 2010; 2: 566-586 doi:10.3390/w2030566

Devyatkov ND. Influence of millimetre band electromagnetic radiation on biological objects. Sov Phys Usp 1974; 16:568-569.

Devyatlov ND. Golant MV, Betskii OV. Millimeter waves and their role in processes of vital activity. (In Russian), Radio and Svyaz, Moscow, 1991.

Dodig-Crnkovic G. Floridi’s Informational Structural Realist Basis for Infocomputational Modeling of Cognizing Agent, Informational Structural Realism, ISR, 2012.

Dorner S, Goold J, Vedral V. Interface focus 2012; 2: 522-528.

Dotta BT, and Persinger, MA. “Doubling” of local photon emissions when two simultaneously, spatially separated, chemiluminescent reactions share the same magnetic field configurations. Journal of Biophysical Chemistry 2012; 3: 72-80.

Dotta BT, Mulligan, BP, Hunter, MD, Persinger MA. Evidence of macroscopic quantum entanglement during double quantitative electroencephalographic measurements of friends vs strangers. NeuroQuantology 2009; 7: 548-551.

Dupays A, Lamine B, Blachard A. Can dark energy merge from quantum effects in a compact extra dimension? Astronomy and Astrophysics, 2013.

Electromagnetic Energy and Sound Vibration Modulates Gene Expression for Biological Signaling and Healing. Global Adv Health Med.2014;3(2): 40-55. DOI:10.7453/gahmj.2014.008.

Faraday M. Philos. Trans. R. Soc. London 1831; 121, 299.

Faure F. Prequantum chaos: resonances of the prequantum CAT MAP, Journal of Modern Dynamics, 2007; 1, no. 2: 255-285.

Fauvel J, Flood R, Wilson R. Music and Mathematics: From Pythagoras to Fractals. Oxford: Oxford University Press, 2003.

Fels D., Cifra M. and Scholkmann F. Fields of the Cell, 2015; ISBN: 978-81-308-0544-3.

Flohr H. On the Mechanism of Action of Anaesthetic Agents. In Stuart R. Hameroff, Alfred W. Kaszniak & A. C. Scott (eds.), Toward a Science of Consciousness II. MIT Press 1998; 2--459.

Fremling M. Coherent State Wave Functions on the Torus, Licentiate Thesis, 2013.

Fröhlich F, McCormick, DA. "Endogenous electric fields may guide neocortical network activity" Neuron 2013; 67: 129–143. doi:10.1016/j.neuron.2010.06.005.

Fröhlich F. Endogenous and exogenous electric fields as modifiers of brain activity: rational design of non-invasive brain stimulation with transcranial alternating current stimulation, Dialogues Clin Neurosci. 2014; 16: 93-102.

Fröhlich H. Biological Coherence and Response to External Stimuli. Springer, Berlin, Heidelberg, New York, 1988.

Fröhlich H. Bose condensation of strongly excited longitudinal electric modes. Physical Letters 1968; 26: 402e403.

Fröhlich H. Quantum mechanical concepts in biology. From Theoretical Physics to Biology 1969; 13-22, Marois M., Ed.; North-Holland: Amsterdam, the Netherlands.

Fröhlich, H. Long range coherence and the actions of enzymes. Nature 1970; 228: 1093.

Fröhlich, H. Long-range coherence and energy storage in biological systems. Int. J. Quantum Chem. 1968; 2: 641–649.

Fröhlich, H. The extraordinary dielectric properties of biological materials and the action of enzymes. Proc Natl Acad Sci USA, 1975 ;72(11):4211-5.

Gabrielli E, Huitu K, Roy S. Photon propagation in magnetic and electric fields with scalar/pseudoscaler couplings: a new look. Phys. Rev. D 2006; 74: 1–21 10.1103/physrevd.74.073002.

Gander MJ, Kwok F. Chladni Figures and the Tacoma Bridge: Motivating PDE Eigenvalue Problems via Vibrating Plates, SIAM REVIEW Society for Industrial and Applied Mathematics 2012; 54, No. 3: 573–596.

Gander MJ, Wanner G. From Euler, Ritz and Galerkin to Modern Computing. SIAM REVIEW, Society for Industrial and Applied Mathematics 2010; Vol. 54, No. 4.

Gang N, St-Pierre LS, Persinger MA. Water dynamics following treatment by one hour 0.16 tesla static magnetic fields depend on exposure. Water 2012; 3: 122–131 10.14294/water.2011.10.

Geesink JH, Meijer DKF. Quantum Wave Information of Life Revealed: An algorithm for EM frequencies that create stability of biological order, with implications for brain function and consciousness, NeuroQuantology, 2016; 14: 106-125.

Geesink JH. Description silicate mineral in Mineral composition. EP 1834926 A1, 2007.

Georgiev D. Bose-Einstein condensations of tunneling photons in the brain cortex as a mechanism of conscious action, 2014;

Georgiev D, Glazebrook J. Dissipationless Waves for Information Transfer in Neurobiology—Some Implications. Informatica 2006; 30:221-232.

Germine M. The Holographic Principle Theory of Mind, 2007.

Gerner van HJ, Martin A, Hoef van der A, Meer van der D, Weele van der K. Inversion of Chladni patterns by tuning the vibrational acceleration, Physical Review 2010; E82: 012301 2010.

Gibbs GM, Scanlon MJ, Swarbrick J, Curtis S, Gallant E, Dulhunty AF, O'Bryan MK. The cysteine-rich secretory protein domain of Tpx-1 is related to ion channel toxins and regulates ryanodine receptor Ca2+ signalling. J Biological Chemistry 2006; 7: 4156-4163.

Glade N, Tabony J. Brief exposure to high magnetic fields determines microtubule self-organisation by reaction-diffusion processes, Biophys Chem. 2005.

Golgher L. Weizmann Institute of Science - Feinberg Graduate School Synchronous Neural Oscillations and Motor Vehicle Vibrations a Preliminary Literature Survey, 2007.

Gonzales A. Earth magnetic field is singing. This is what it sounds like,, 2012.

Gonzalies-Lima F, Barrett DW. Augmentation of cognitive brain function with transcranial lasers. Frontiers in system Neuroscience 2014; vol.8: pp 1-4.

Görnitz T. A Century of Quantum Theory: Time for a Change in Thinking: Versus the Popular Belief That Material Building Blocks are the Basis of the Reality. 2016;

Graham TM., Bernstein HJ., Wei TC, Junge M, Kwiat PG. Superdense teleportation using hyperentangled photons. Nature communications 2014; 6:7185 DOI: 10.1038/ncomms8185.

Grandpierre A. Fundamental complexity of life. 2011;

Grassi C, D'Ascenzo M, Torsello A, Martinotti G, Wolf F, Cittadini A, Azzena GB. Effects of 50 Hz electromagnetic fields on voltage-gated Ca2+ channels and their role in modulation of neuroendocrine cell proliferation and death, Cell Calcium. 2004.

Green M. Superstrings. Sci. Am. 1986; 255: 48- 58

Hameroff S, Penrose R. Consciousness in the universe: A review of the 'Orch OR' theory. Phys Life Rev, 2014; Mar 11(1):39-78.

Hameroff S, Tuszynsky J. Quantum states in protein assemblies: The essence of Life? 2015

Hameroff S. Quantum Computation in Brain Microtubules? The Penrose–Hameroff ‘Orch OR‘ Model of Consciousness. Philos. Trans. R. Soc. Lond. Ser. Math. Phys. Eng. Sci. 1998; 356: 1869–1896.

Hammerschlag R, Levin M, McCraty R, Bat BA, Ives JA, Lutgendorf, SK, Oschman JL. Biofield Physiology: A Framework for an Emerging Discipline. Global Adv Health Med. 2015; 4 (suppl): 35-41. DOI: 10.7453/gahmj. 015. Suppl.

Haramein N. Quantum Gravity and the Holographic Mass, Physical Review & Research International 2013; 3(4): 270-292.

Hernández-Bule ML, Trillo MA, Cid MA, Leal J, Ubeda A. In vitro exposure to 0.57-MHz electric currents exerts cytostatic effects in HepG2 human hepatocarcinoma cells, Int J Oncol. 2007; 30(3):583-92.

Hibbert WA, Sharp DB, Taherzadeh S, Perrin R. Partial Frequencies and Chladni’s in Church Bells, Open Journal of Acoustics, 2014; 4: 70-77.

Ho MW. Circular thermodynamics of organisms and sustainable systems. Systems 2013; 1: 30-49.

Holmlid L. Experimental Studies and Observations of Clusters of Rydberg Matter and Its Extreme Forms, J Clust Sci 2012; 23:5–34.

Huelga SF, Plenio MB. Vibartion, Quanta and Biology Contemporary Physics 2013; 54, 181 and E-print: arxiv:1307.3530.

Janata P, Birk JL, Van Horn JD, Leman M, Tillmann B, Bharucha J. The Cortical Topography of Tonal Structures Underlying Western Music. Science 2002; 298: 2167.

Jantzen RT. Geodesics on the Torus and other Surfaces of Revolution Clarified Using Undergraduate Physics Tricks with Bonus: Nonrelativistic and Relativistic Kepler Problems, 2010.

Jenny H. Cymatics: A Study of Wave Phenomena and Vibration. A complete compilation of the original two volumes by Hans Jenny, 1967 and 1974.

Jibu M, Yasue K. Quantum Brain Dynamics: An Introduction. Amsterdam: John Benjamins, 1995.

John ER. A field theory of consciousness. Consciousness and Cognition 2001; 10:184-213.

Johnson K“Water Buckyball” Terahertz Vibrations in Physics, Chemistry, Biology, and Cosmology. 2009;

Kang KS, Min Hong J, Kang JA, Jong-Won Rhie, Dong-Woo Cho. Osteogenic Differentiation of Human Adipose-Derived Stem Cells Can Be Accelerated by Controlling the Frequency of Continuous Ultrasound, Exp Mol Med. 2013; 45(1): e6.

Kauffman S. Is There A 'Poised Realm' Between the Quantum and Classical Worlds? Cosmos and culture, 2010.

Keppler JA. A new perspective on the functioning of the brain and the mechanisms behind conscious processes Frontiers in Psychology. Theoretical and Philosophical Psychology 2013; 1-6.

Keppler JA. Conceptual framework for consciousness based on a deep understanding of matter. Philos. Study 2012; 2: 689–703.

Knierim JJ, Zhang K. Attractor Dynamics of Spatially Correlated Neural Activity in the Limbic System, 10.1146/Ann. Rev. Neurol.2012; 062111-150351.

Kolesnikov A.I, Reiter G F, Choudhury N, Prisk T R, Mamontov E, Podlesnyak A, Ehlers G, Seel A G, Wesolowski D J, and Anovitz L M. Quantum Tunneling of Water in Beryl: A New State of the Water Molecule. Phys. Rev. Lett. 2016; 116, 167802

Kozyrev NA. On the Potential for Experimental Investigation of the Properties of Time, 1971.

Kriegl JM, Niehaus GU. Structural, dynamic, and energetic aspects of long-range electron transfer in photosynthetic reaction centres. Proceedings of The National Academy of Sciences 2004; USA 1: 12312-12318.

Lambert N, Chen Y, Cheng Y, Li C, Chen G, Nori F."Quantum biology". Nature Physics 2013; 9 (1): 10–1, doi:10.1038/nphys2474.

Libet B. Neurophysiology of Consciousness, 1993; ISBN: 978-1-4612-6722-5.

Liboff AR. Geomagnetic cyclotron resonance in living cells, Journal of Biological Physics 1985; vol. 13.

Lima SQ, Miesenbock G. Remote control of behaviour through genetically targeted photostimulation of neurons. Cell 2005; 121:141–152.

Lindemann T, Vella A. Analysis of Vibrating Plates with Acoustic Holography and Eddy Currents, PHYS 406 – Acoustical Physics of Music, University of Illinois at Urbana-Champaign, Professor Steven M Errede, 15 May, 2015.

Lloyd S. Better Living Through Quantum Mechanics, 2014.

Lundholm IV, Rodilla H, Wahlgren WY, Duelli A, Bourenkov G, Vukusic J, Friedman R, Stake J, Schneider T, Katona G. Terahertz radiation induces non-thermal structural changes associated with Fröhlich condensation in a protein crystal. Struct. Dyn. 2015; .2: 054702 ;

Markelz AG. Terahertz Dielectric Sensitivity to Biomolecular Structure and Function. IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS, 2008; 14, NO. 1

Marshall IN. "Consciousness and Bose-Einstein Condensates." New Ideas in Psychology, 1989; v.7, n.1.

Matsuura H, Wasaki K. Quantization of artificial neuron (Quantum coherent model of polariton on axon). Int. J. Innovative Computing, Information and Control, 2014; vol.10: 1121-1133.

McFadden J. Conscious Electromagnetic (CEMI) Field Theory. NeuroQuantology 2007; 5(3):262–270.

McNaughton BL, Battaglia FP, Jensen O, Moser EI, Moser MB. Path integration and the neural basis. Neurosci. 2006; 7(8):663-78.

Meijer DKF, Korf J. Quantum modelling of the mental state: the concept of a cyclic mental workspace. SyntropyJournal 2013; (1): 1-41

Meijer DKF. The Extended Brain. Cyclic information flow in a quantum physical realm. NeuroQuantology 2014; 12-2: 180-200.

Meijer DKF. The information Universe: On the Missing Link in Concepts of the Architecture of Reality. Syntropy 2012; 1: 1-64.

Meijer DKF. The Universe as a Cyclic Organized Information System. An Essay on the Worldview of John Wheeler. NeuroQuantology; 2015; 1:


Melkikh AV. The Problems of Replication in the Early Stages of Evolution: Enumeration of Variants and Spatial Configurations of Replicators. Origins of Life and Evolution of Biospheres 2014; 44, Issue 4: pp 283-285.

Menini A, Picco C, and Firestein S. Quantal-like current fluctuations induced by odorants in olfactory receptor cells, Nature. 1995; 373: 435–437.

Merrick R. Harmonically Guided Evolution, 2010,

Mesquita MV, Vasconcellos AR, Luzzi R, Ascarenhas S. Systems Biology: An Information-Theoretic-Based Thermo-Statistical Approach, Brazilian Journal of Physics 2004; vol. 34, no. 2A.

Mihai CT, Rotinberg P, Brinza F, Vochita G. Extremely low-frequency electromagnetic fields cause DNA strand breaks in normal cells. J. Environ. Health Sci. Eng. 2014; 12:15. 10.1186/2052-336x-12-15.

Mitchell ED, Staretz R. The Quantum Hologram and the Nature of Consciousness. In R. Penrose, S. Hameroff, & S. Kak (Eds.), Consciousness and the Universe. Cambridge, MA: Cosmology Science Publishers 2011; pp. 933-965.

Montagnier L, Del Giudice E, A¨ıssa J, Lavallee C, Motschwiller S, Capolupo A, Polcari A, Romano P, Tedeschi A, and Vitiello G. Transduction of DNA information through water and electromagnetic waves, arXiv:1501.01620v1 [q-bio.OT] 27 Dec 2014

Muehsam D, Ventura C. Life Rhythm as a Symphony of Oscillatory Patterns. Global Adv. Heath. Med. 2014; 3: 40-55.

Munoz Mateo A, Brand J. Chladni solitons and the onset of the snaking instability for dark solitons in confined superfluids, 2014.

Munoz Mateo A. Brand J. Stability and dispersion relations of three-dimensional solitary waves in trapped Bose–Einstein condensates. New J. Phys. 2015; 17: 125013.

Mustafi SM, Mukherjee S, Chary KVR, Del Bianco C, Luchinat C. Energetics and Mechanism of Ca2+ Displacement by Lanthanides in a Calcium Binding Protein, Biochemistry, 2004; 43 (29): 9320–9331.

Nelson E. Quantum fluctuations, Princeton University Press, 1986.

Nunn C. Mind consciousness and time: integrated overview. Quantum Biosystems, 2015; 6: 73-81.

Ozil et al. Egg activation events are regulated by the duration of a sustained [Ca2+]cyt signal in the mouse, Dev. Biol. 2005; 282: 39–54.

Ozols M. Geometry of a qubit, 2007; ID 20286921.

Pall ML. Electromagnetic fields act via activation of voltage-gated calcium channels to produce beneficial or adverse effects, J Cell Mol Med. 2013; 17(8): 958–965.

Pan J Z, Xi J, Eckenhoff MF, Eckenhoff RG. Inhaled Anesthetics Elicit Region-Specific Changes in Protein Expression in Mammalian Brain. Proteomics, 2008; 8: 2983–2992.

Pekar SI. English translation: Research in Electron Theory of Crystals, AEC-tr-555, US Atomic Energy Commission, 1963.

Penrose R. "On the Gravitization of Quantum Mechanics 1: Quantum State Reduction", Foundations of Physics 2014; 44: 557–575.

Pereira A, Furlan FA. Biomolecular Information, Brain Activity and Cognitive Function. In: ARBS Annual Rev of Biomedical Sciences 2007; 9: 12-29.

Pereira A. Astrocyte-Trapped Calcium Ions: the Hypothesis of a Quantum-Like Conscious Protectorate. Quantum Biosystems 2007; 2: 80-92.

Pereira AN, Paula Eduardo C de, Matson E, Marques MM. Effect of low-power laser irradiation on cell growth and procollagen synthesis of cultured fibroblasts. Lasers Surg Med. 2002; 31: 263-7.

Persinger MA, Lavallee CF. Theoretical and experimental evidence of macroscopic entanglement between human brain activity and photon emissions: implications for quantum consciousness and future applications. J. Cons. Explor. Res. 2010; 1: 785–807.

Persinger MA. On the possible representation of the electromagnetic equivalents of all human memory within the earth’s magnetic field: implications for theoretical biology. Theor. Biol. Insights 2008; 1: 3–11.

Pietak AM. Structural evidence for electromagnetic resonance in plant morphogenesis, BioSystems 2012; doi:10.1016/j.biosystems.2012.01.009.

Pockett S. The electromagnetic field theory of consciousness: a testable hypothesis about the characteristics of conscious as opposed to non-conscious fields. Journal of Consciousness Studies 2012; 19 (11-12): 191-223.

Purwins H, Blankertz B, Obermayer K. Toroidal Models in Tonal Theory and Pitch-Class Analysis, 2007.

Rayleigh L. Philos. Trans. R. Soc. London 175, 1884.

Reimers JR, McKemmish LK, McKenzie RH, Mark AE, Hush NS. Weak, Strong, and Coherent Regimes of Fröhlich Condensation and their Applications to Terahertz Medicine and Quantum Consciousness. Proc. Natl. Acad. Sci. U. S. A., 2009; 106: 4219–4224.

Reite M, Higgs L, Lebet JP, Barbault A, Rossel C, Kuster N, Dafni U, Amato D, Pasche B. Sleep inducing effect of low energy emission therapy. Bioelectromagnetics, 1994.

Rieper E. et al, Entanglement at the quantum phase transition in a harmonic lattice. New Journal of Physics 2010; 12: 025017.

Ritz W. Theorie der Transversalschwingungen einer quadratischen Platte mit freien Rändern, 1909.

Robert, M. A Broader Perspective about Organization and Coherence in Biological Systems, 2012; arXiv: 1212.0334 [q-bio.OT].

Rosen AD. Inhibition of calcium channel activation in GH3 cells by static magnetic fields, Biochim Biophys Acta. 1996; 13; 1282(1):149-55.

Rossing TD, Perrin, R. Vibrations of Bells. Applied Acoustics 1987; 20: 41-70.

Rossing TD. Chladni's law for vibrating plates. American Journal of Physics 1982; 50(3): 271–274. doi: 10.1119/1.12866.

Rouleau N, Dotta BT. Electromagnetic fields as structure-function zeitgebers in biological systems: environmental orchestrations of morphogenesis and consciousness, Front Integr Neurosciv 2014; 8.

Sahtouris E. EarthDance: Living Systems in Evolution. Universe, 2000.

Sahu S, Ghosh S, Hirata K, Fujita D, Bandyopadhyay A. Multi-level memory-switching properties of a single brain microtubule. Appl Phys Lett 2013; 102:123701.

Salari V, Rahnama M, Tuszynski JA. On the Theoretical Possibility of Quantum Visual Information Transfer to the Human Brain, 2010.

Sharma, SD, Freedman M, Nayak C. Topological quantum computing, American institute of Physics 2006; S-0031-9228-0607-020-7.

Sheldrake R. Morphic Resonance. The Nature of Formative Causation Rochester. Park Street Press, 2009.

Shepard RN. Geometrical approximations to the structure of musical pitch, Psychological Review, 1982; 89(4): 305-333.

Shor PW. Scheme for reducing decoherence in quantum computer memory. Phys. Rev. 1995; A 52 (R): 2493–6.

Siegel PH, Pikov V. Impact of low intensity millimetre waves on cell functions, Electronics Letters 2010; Special Supplement: Terahertz Technology.

Smoyer L. Musical Mathematics, the Mathematical Structure of the Pythagorean and Equal Tempered Scale. In partial fulfilment of the Masters of Science in Teaching Mathematics 2005.

Smythies J. On the possible role of protein vibrations in information processing in the brain: Three Russian Dolls. Front Mol Neurosci. 2015 a; 8: 38.doi: 10.3389/fnmol.2015.00038

Smythies J. Off the beaten track: the molecular structure of long-term memory: three novel hypotheses—electrical, chemical and anatomical (allosteric). Front. Integr. Neurosci. 2015b; doi: 10.3389/fnint.2015 B.00004.

Steinhardt PJ, Turok N. Endless Universe: Beyond the Big Bang, (Doubleday, 2007).

Swain J. On the Possibility of Large Up-conversions and Mode Coupling between Fröhlich States and Visible Photons in Biological Systems, 2006.

Tabrah F, Hoffmeier M, Gilbert F Jr, Batkin S, Bassett CA. Bone density changes in osteoporosis-prone women exposed to pulsed electromagnetic fields (PEMFs). J Bone Miner Res. 1990; 5(5):437-42.

Tegmark M, Oliveira-Costa A de, Hamilton A. A high resolution foreground cleaned CMB map from WMAP, 2003; arXiv:astro-ph/0302496v4.

Tenen S. The shape of information. The Noetic Journal 2002; 3, 173-182

Tononi G, Koch C. Consciousness: here, there and everywhere? March, 2015.

Tozzi A, Peters JF, Brain activity on a hypersphere. Quantitative Biology Neurons and Cognition 2015; arXiv:1512.00036 [q-bio.NC].

Traugott JS. Gehler’s physikalisches Wörterbuch, Achter Band, 1836.

Ullmann, D. Chladni und die Entwicklung der Akustik von 1750-1860. Basel: Birkhäuser. pp. 237. ISBN 3-7643-5398-8 (German), 1996.

Umezawa H. Advanced Field Theory: Micro, Macro and Thermal Concepts, American Institute of Physics, N.Y. 1993.

Vasconcellos AR, Vannucchi FS, Mascarenhas S, Luzzi R. Fröhlich Condensate: Emergence of Synergetic Dissipative Structures in Information Processing Biological and Condensed Matter Systems, Information 2012; 3: 601-620; doi:10.3390/info3040601.

Vattay G, Kauffman S, Niiranen S. Quantum biology on the edge of quantum chaos. PLOS ONE 2014; 9 | Issue 3: e89017.

Vendel AC. et al. Alternative splicing of the voltage-gated Ca2+ channel 4 subunit creates a uniquely folded N-terminal protein binding domain with cell-specific expression in the cerebellar cortex. J. Neurosci. 2006; 26; 2635-2644.

Vitiello G. My Double Unveiled, Amsterdam: Benjamins, 2001.

Vos MH, Rappaport F, Lambry JC, Breton J. Martin JL. Visualization of coherent nuclear motion in a membrane protein by femtosecond spectroscopy, Nature 1993; 363: 320 - 325; doi:10.1038/363320a0.

Wei Y, Xiaolin H, Tao S. Effects of extremely low frequency-pulsed electromagnetic field on different-derived osteoblast-like cells. Electromagn. Biol. Med. 2008; 27 (3): 298–311.

Weiss H and Weiss V. The golden mean as clock cycle of brain waves. Chaos, Solitons and Fractals 2003; 18: 643-652 - Elsevier Author Gateway, online version.

Weng Y, Dang Y, Ye X, Liu N, Zhang Z, Ren Q. Investigation of irradiation by different nonablative lasers on primary cultured skin fibroblasts. Clin Exp Dermatol. 2011; 36:655-60.

Wheeler JA. At Home in the Universe, New York Institute of Physics, 1994.

Williamson JG, Mark van der MB. Is the electron a photon with toroidal topology? Annales de la Fondation Louis de Broglie 1997; Volume 22, no.2, 133.

Witten, E. "Perturbative Gauge Theory As A String Theory In Twistor Space", Communications in Mathematical Physics ; 2003), 252: 189–258, arXiv:hep-th/0312171, Bibcode:2004CMaPh.252..189W, doi:10.1007/s00220-004-1187-3

Wolff M. Beyond the Point Particle - A Wave Structure for the Electron, Galilean Electrodynamics 1995; pp 83-91.

Xiao W. Chladni Pattern, Supervisor: Anders Madsen, Basic studies in Natural Sciences, RUC, 2010.

Yepez O. Matter and Light in Flatland, General Physics (physics.gen-ph) 2004.

Zeilinger A. Why the Quantum? It from Bit? A Participatory Universe? Three Far-Reaching, Visionary Challenges from John Archibald Wheeler and How They Inspired a Quantum Experimentalist. Charles L. Harper, Templeton Foundation Press, 2003.

Supporting Agencies

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.

Comments on this article

View all comments

| NeuroScience + QuantumPhysics> NeuroQuantology :: Copyright 2001-2017