The archetypal molecular patterns of conscious experience are quantum analogs
We define quantum analogs as vibrational excitations of quasiparticles coupled to electromagnetically-mediated resonance energy transfer in water (a crystal lattice). This paper addresses how neural magnetic resonance spectra of the brain’s magnetic field influence dipolar oscillation waves in cryst...
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Online Access: | http://eprints.utm.my/104142/1/MAJalilJATuszynskiRRPoznanski2022_TheArchetypalMolecularPatternsofConscious.pdf http://eprints.utm.my/104142/ http://dx.doi.org/10.56280/1531676736 |
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my.utm.1041422024-01-17T01:30:53Z http://eprints.utm.my/104142/ The archetypal molecular patterns of conscious experience are quantum analogs Jalil, Muhammad Arif Pattanayak, A. M. Thabet, M. Thabet Dutta, T. Poznanski, R. R. Bandyopadhyay, A. Singh, P. Tuszynski, J.A. Cacha, L.A. Q Science (General) We define quantum analogs as vibrational excitations of quasiparticles coupled to electromagnetically-mediated resonance energy transfer in water (a crystal lattice). This paper addresses how neural magnetic resonance spectra of the brain’s magnetic field influence dipolar oscillation waves in crystal lattices of interfacial water molecules to produce correlates of phenomenal consciousness. We explore dipolar oscillation waves in hydrophobic protein cavities of aromatic amino acids as a conduit for coherent propagation of vibrational excitation and hydrogen bond distortion associated with phase coherence present in the magnetic field intensity oscillations at a frequency at which the energy switches from its trapped form as excited phonon states to free, cavity-mode magnetic field energy states. A quasi-polaritons that reflect “hydro-ionic waves” is a macroscopic quantum effect of crystal lattice vibrations, consisting of vibron polaritons coupled to ions across the neocortex, except the cerebellum, due to the absence of protein-protein interactions. They are quantum-like at the core and hence can exhibit quantum-like signaling properties when resonant energy is transferred as dipolar waves in hydrophobic protein cavities of aromatic amino acids. This is due to aromatic residue flexibility in molecular electromagnetic resonances. Finally, the archetypal molecular patterning of conscious experiences, which carries an inherent ambiguity necessary for non-contextually applying ‘meaning’ that encompasses cognitive signatures of conscious experience, satisfies the nature of quantum analogs and their transmutative properties. Neural Press 2022 Article PeerReviewed application/pdf en http://eprints.utm.my/104142/1/MAJalilJATuszynskiRRPoznanski2022_TheArchetypalMolecularPatternsofConscious.pdf Jalil, Muhammad Arif and Pattanayak, A. and M. Thabet, M. Thabet and Dutta, T. and Poznanski, R. R. and Bandyopadhyay, A. and Singh, P. and Tuszynski, J.A. and Cacha, L.A. (2022) The archetypal molecular patterns of conscious experience are quantum analogs. Journal Of Multiscale Neuroscience., 1 (1). pp. 41-53. ISSN 2653-4983 http://dx.doi.org/10.56280/1531676736 DOI: 10.56280/1531676736 |
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Q Science (General) Jalil, Muhammad Arif Pattanayak, A. M. Thabet, M. Thabet Dutta, T. Poznanski, R. R. Bandyopadhyay, A. Singh, P. Tuszynski, J.A. Cacha, L.A. The archetypal molecular patterns of conscious experience are quantum analogs |
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We define quantum analogs as vibrational excitations of quasiparticles coupled to electromagnetically-mediated resonance energy transfer in water (a crystal lattice). This paper addresses how neural magnetic resonance spectra of the brain’s magnetic field influence dipolar oscillation waves in crystal lattices of interfacial water molecules to produce correlates of phenomenal consciousness. We explore dipolar oscillation waves in hydrophobic protein cavities of aromatic amino acids as a conduit for coherent propagation of vibrational excitation and hydrogen bond distortion associated with phase coherence present in the magnetic field intensity oscillations at a frequency at which the energy switches from its trapped form as excited phonon states to free, cavity-mode magnetic field energy states. A quasi-polaritons that reflect “hydro-ionic waves” is a macroscopic quantum effect of crystal lattice vibrations, consisting of vibron polaritons coupled to ions across the neocortex, except the cerebellum, due to the absence of protein-protein interactions. They are quantum-like at the core and hence can exhibit quantum-like signaling properties when resonant energy is transferred as dipolar waves in hydrophobic protein cavities of aromatic amino acids. This is due to aromatic residue flexibility in molecular electromagnetic resonances. Finally, the archetypal molecular patterning of conscious experiences, which carries an inherent ambiguity necessary for non-contextually applying ‘meaning’ that encompasses cognitive signatures of conscious experience, satisfies the nature of quantum analogs and their transmutative properties. |
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Article |
author |
Jalil, Muhammad Arif Pattanayak, A. M. Thabet, M. Thabet Dutta, T. Poznanski, R. R. Bandyopadhyay, A. Singh, P. Tuszynski, J.A. Cacha, L.A. |
author_facet |
Jalil, Muhammad Arif Pattanayak, A. M. Thabet, M. Thabet Dutta, T. Poznanski, R. R. Bandyopadhyay, A. Singh, P. Tuszynski, J.A. Cacha, L.A. |
author_sort |
Jalil, Muhammad Arif |
title |
The archetypal molecular patterns of conscious experience are quantum analogs |
title_short |
The archetypal molecular patterns of conscious experience are quantum analogs |
title_full |
The archetypal molecular patterns of conscious experience are quantum analogs |
title_fullStr |
The archetypal molecular patterns of conscious experience are quantum analogs |
title_full_unstemmed |
The archetypal molecular patterns of conscious experience are quantum analogs |
title_sort |
archetypal molecular patterns of conscious experience are quantum analogs |
publisher |
Neural Press |
publishDate |
2022 |
url |
http://eprints.utm.my/104142/1/MAJalilJATuszynskiRRPoznanski2022_TheArchetypalMolecularPatternsofConscious.pdf http://eprints.utm.my/104142/ http://dx.doi.org/10.56280/1531676736 |
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