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Biomagnetic effects: a consideration in fusion reactor development.

Fusion reactors will utilize powerful magnetic fields for the confinement and heating of plasma and for the diversion of impurities. Large dipole fields generated by the plasma current and the divertor and transformer coils will radiate outward for several hundred meters, resulting in magnetic field...

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Detalles Bibliográficos
Autor principal: Mahlum, D D
Formato: Texto
Lenguaje:English
Publicado: 1977
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1637347/
https://www.ncbi.nlm.nih.gov/pubmed/598345
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author Mahlum, D D
author_facet Mahlum, D D
author_sort Mahlum, D D
collection PubMed
description Fusion reactors will utilize powerful magnetic fields for the confinement and heating of plasma and for the diversion of impurities. Large dipole fields generated by the plasma current and the divertor and transformer coils will radiate outward for several hundred meters, resulting in magnetic fields up to 450 gauss in working areas. Since occupational personnel could be exposed to substantial magnetic fields in a fusion power plant, an attempt has been made to assess the possible biological and health consequences of such exposure, using the existing literature. The available data indicate that magnetic fields can interact with biological material to produce effects, although the reported effects are usually small in magnitude and often unconfirmed. The existing data base is judged to be totally inadequate for assessment of potential health and environmental consequences of magnetic fields and for the establishment of appropriate standards. Requisite studies to provide an adequate data base are outlined.
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spelling pubmed-16373472006-11-17 Biomagnetic effects: a consideration in fusion reactor development. Mahlum, D D Environ Health Perspect Research Article Fusion reactors will utilize powerful magnetic fields for the confinement and heating of plasma and for the diversion of impurities. Large dipole fields generated by the plasma current and the divertor and transformer coils will radiate outward for several hundred meters, resulting in magnetic fields up to 450 gauss in working areas. Since occupational personnel could be exposed to substantial magnetic fields in a fusion power plant, an attempt has been made to assess the possible biological and health consequences of such exposure, using the existing literature. The available data indicate that magnetic fields can interact with biological material to produce effects, although the reported effects are usually small in magnitude and often unconfirmed. The existing data base is judged to be totally inadequate for assessment of potential health and environmental consequences of magnetic fields and for the establishment of appropriate standards. Requisite studies to provide an adequate data base are outlined. 1977-10 /pmc/articles/PMC1637347/ /pubmed/598345 Text en
spellingShingle Research Article
Mahlum, D D
Biomagnetic effects: a consideration in fusion reactor development.
title Biomagnetic effects: a consideration in fusion reactor development.
title_full Biomagnetic effects: a consideration in fusion reactor development.
title_fullStr Biomagnetic effects: a consideration in fusion reactor development.
title_full_unstemmed Biomagnetic effects: a consideration in fusion reactor development.
title_short Biomagnetic effects: a consideration in fusion reactor development.
title_sort biomagnetic effects: a consideration in fusion reactor development.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1637347/
https://www.ncbi.nlm.nih.gov/pubmed/598345
work_keys_str_mv AT mahlumdd biomagneticeffectsaconsiderationinfusionreactordevelopment