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Generation of biological electromagnetic field by microtubules
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SYSNO ASEP 0539525 Document Type C - Proceedings Paper (int. conf.) R&D Document Type Conference Paper Title Generation of biological electromagnetic field by microtubules Author(s) Pokorný, Jiří (FZU-D)
Pokorný, Jan (FZU-D) RID, ORCID
Vrba, J. (CZ)Number of authors 3 Source Title Proceedings of the European Microwave Conference in Central Europe 2019 (EuMCE2019). - Louvain-la-Neuve : The European Microwave Association, 2019 / Vrba J. ; Švanda M. ; Fišer O. ; Vrba D. - ISBN 978-1-7281-1240-4 Pages s. 438-441 Number of pages 4 s. Publication form Print - P Action European Microwave Conference in Central Europe 2019 (EuMCE2019) Event date 13.05.2019 - 15.05.2019 VEvent location Prague Country CZ - Czech Republic Event type EUR Language eng - English Country BE - Belgium Keywords cellular biophysics ; biological interactions ; biophotonics ; nanotubes ; nanophotonics ; nonlinear optics Subject RIV BO - Biophysics OECD category Biophysics R&D Projects GA16-12757S GA ČR - Czech Science Foundation (CSF) Institutional support FZU-D - RVO:68378271 EID SCOPUS 85074418851 Annotation General mechanism of organization, information and controlling in biological systems is based on internal electromagnetic field. Electromagnetic field is generated by microtubules composed of identical tubulin heterodimers containing electric dipoles. Classical dipole theory of generation of the electromagnetic field enables analysis of the space-time coherence. Structure of microtubules with the spiral and axial periodicity enables interaction of the field in time shifted by one or more periods of oscillation and generation of coherent signals. Due to ordered water layers at charged surfaces their low effective temperature provides low energy losses. Supplied energy is coherently stored in oscillators with a high electrical quality, microtubule inner cavity, and in excited electrons at molecular orbitals and in “semiconduction” and “conduction” bands. Keywords — cellular biophysics, biological interactions, biophotonics, nanotubes, nanophotonics, nonlinear optics. Workplace Institute of Physics Contact Kristina Potocká, potocka@fzu.cz, Tel.: 220 318 579 Year of Publishing 2021
Number of the records: 1