Do Field-Free Electromagnetic Potentials Play a Role in Biology?

All bio-systems are imperfect dielectrics. Their general properties however cannot be described by conventional simple electrodynamics; the system is more complex. A central question in our present paper is centered on a controversial debate of the possible effect of the zero fields (only potentials...

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Bibliographic Details
Published inElectromagnetic biology and medicine Vol. 28; no. 2; pp. 135 - 147
Main Authors Szasz, A., Vincze, G., Andocs, G., Szasz, O.
Format Journal Article
LanguageEnglish
Published England Informa UK Ltd 2009
Taylor & Francis
Subjects
1/f noise
Biological Phenomena
Electromagnetic Phenomena
Electromagnetic potentials
Field-free action
Fluctuations
Humans
Models, Biological
Online AccessGet full text
ISSN1536-8378
1536-8386
1536-8386
DOI10.1080/15368370802711938

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Summary:All bio-systems are imperfect dielectrics. Their general properties however cannot be described by conventional simple electrodynamics; the system is more complex. A central question in our present paper is centered on a controversial debate of the possible effect of the zero fields (only potentials exist). We show that the identical use of the "field-free," "curl-free," and "force-free" terminologies is incorrect, there have definitely different meanings. It is shown that the effective electro-dynamical parameters that describe and modify living systems are the potentials and not the fields. We discuss how the potentials have a role in biological processes even in field-free cases.
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ISSN:1536-8378
1536-8386
1536-8386
DOI:10.1080/15368370802711938