Holographic Brain Theory: Super-Radiance, Memory Capacity and Control Theory

We investigate Quantum Electrodynamics corresponding to the holographic brain theory introduced by Pribram to describe memory in the human brain. First, we derive a super-radiance solution in Quantum Electrodynamics with non-relativistic charged bosons (a model of molecular conformational states of...

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Main Authors: Akihiro Nishiyama, Shigenori Tanaka, Jack A. Tuszynski, Roumiana Tsenkova
Format: Article
Language:English
Published: MDPI AG 2024-02-01
Series:International Journal of Molecular Sciences
Subjects:
Online Access:https://www.mdpi.com/1422-0067/25/4/2399
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author Akihiro Nishiyama
Shigenori Tanaka
Jack A. Tuszynski
Roumiana Tsenkova
author_facet Akihiro Nishiyama
Shigenori Tanaka
Jack A. Tuszynski
Roumiana Tsenkova
author_sort Akihiro Nishiyama
collection DOAJ
description We investigate Quantum Electrodynamics corresponding to the holographic brain theory introduced by Pribram to describe memory in the human brain. First, we derive a super-radiance solution in Quantum Electrodynamics with non-relativistic charged bosons (a model of molecular conformational states of water) for coherent light sources of holograms. Next, we estimate memory capacity of a brain neocortex, and adopt binary holograms to manipulate optical information. Finally, we introduce a control theory to manipulate holograms involving biological water’s molecular conformational states. We show how a desired waveform in holography is achieved in a hierarchical model using numerical simulations.
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spelling doaj.art-4aed26f66261479c9bd23d50eeabffbb2024-02-23T15:20:51ZengMDPI AGInternational Journal of Molecular Sciences1661-65961422-00672024-02-01254239910.3390/ijms25042399Holographic Brain Theory: Super-Radiance, Memory Capacity and Control TheoryAkihiro Nishiyama0Shigenori Tanaka1Jack A. Tuszynski2Roumiana Tsenkova3Graduate School of System Informatics, Kobe University, 1-1 Rokkodai, Nada-ku, Kobe 657-8501, JapanGraduate School of System Informatics, Kobe University, 1-1 Rokkodai, Nada-ku, Kobe 657-8501, JapanDIMEAS, Politecnico di Torino, Corso Duca degli Abruzzi 24, I-1029 Turin, ItalyAquaphotomics Research Department, Graduate School of Agricultural Science, Kobe University, 1-1 Rokkodai, Nada-ku, Kobe 657-0851, JapanWe investigate Quantum Electrodynamics corresponding to the holographic brain theory introduced by Pribram to describe memory in the human brain. First, we derive a super-radiance solution in Quantum Electrodynamics with non-relativistic charged bosons (a model of molecular conformational states of water) for coherent light sources of holograms. Next, we estimate memory capacity of a brain neocortex, and adopt binary holograms to manipulate optical information. Finally, we introduce a control theory to manipulate holograms involving biological water’s molecular conformational states. We show how a desired waveform in holography is achieved in a hierarchical model using numerical simulations.https://www.mdpi.com/1422-0067/25/4/2399holographysuper-radiancememoryreservoir computingcontrol theory
spellingShingle Akihiro Nishiyama
Shigenori Tanaka
Jack A. Tuszynski
Roumiana Tsenkova
Holographic Brain Theory: Super-Radiance, Memory Capacity and Control Theory
International Journal of Molecular Sciences
holography
super-radiance
memory
reservoir computing
control theory
title Holographic Brain Theory: Super-Radiance, Memory Capacity and Control Theory
title_full Holographic Brain Theory: Super-Radiance, Memory Capacity and Control Theory
title_fullStr Holographic Brain Theory: Super-Radiance, Memory Capacity and Control Theory
title_full_unstemmed Holographic Brain Theory: Super-Radiance, Memory Capacity and Control Theory
title_short Holographic Brain Theory: Super-Radiance, Memory Capacity and Control Theory
title_sort holographic brain theory super radiance memory capacity and control theory
topic holography
super-radiance
memory
reservoir computing
control theory
url https://www.mdpi.com/1422-0067/25/4/2399
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AT shigenoritanaka holographicbraintheorysuperradiancememorycapacityandcontroltheory
AT jackatuszynski holographicbraintheorysuperradiancememorycapacityandcontroltheory
AT roumianatsenkova holographicbraintheorysuperradiancememorycapacityandcontroltheory