Measurements of the Stark Broadening of Two Neutral Helium Lines in a Plasma

A detailed study has been made of the broadening of the lines λ3889 (width only) and λ5016 (shift and width) of neutral helium in the plasma produced in an electromagnetically driven T tube operating in helium-hydrogen gas mixtures. The electron density in the plasma was found from the broadening of...

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Main Authors: Greig, J.R., Lim, C.P., Moo-Young, G.A., Palumbo, G., Griem, Hans R.
Format: Article
Published: American Physical Society 1968
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Online Access:http://eprints.um.edu.my/25594/
https://doi.org/10.1103/PhysRev.172.148
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spelling my.um.eprints.255942020-11-02T01:40:27Z http://eprints.um.edu.my/25594/ Measurements of the Stark Broadening of Two Neutral Helium Lines in a Plasma Greig, J.R. Lim, C.P. Moo-Young, G.A. Palumbo, G. Griem, Hans R. Q Science (General) QC Physics A detailed study has been made of the broadening of the lines λ3889 (width only) and λ5016 (shift and width) of neutral helium in the plasma produced in an electromagnetically driven T tube operating in helium-hydrogen gas mixtures. The electron density in the plasma was found from the broadening of Hβ, while the temperature was determined from the ratio of the intensity of Hβ to that of the underlying continuum. Temperatures were in the range 20 000-30 000°K; electron densities varied from 1016 to 6×1017 cm-3. The broadening of the line λ3889 was found to increase linearly with electron density; and it compared well with calculations based on the generalized impact theory, except for (constant) correction factors ranging from about 0.9 to 1.0 (depending on which of the various calculations is referred to). For the line λ5016, neither of the previous calculations, nor a correction discussed here, predicts either the width or the shift variations satisfactorily; all the calculations give significantly wider lines above electron densities of 1017 cm-3 than are found experimentally. Also, as the electron density increases, the calculated shifts all become increasingly larger than those found experimentally. However, at the low densities most deviations are small (20%). © 1968 The American Physical Society. American Physical Society 1968 Article PeerReviewed Greig, J.R. and Lim, C.P. and Moo-Young, G.A. and Palumbo, G. and Griem, Hans R. (1968) Measurements of the Stark Broadening of Two Neutral Helium Lines in a Plasma. Physical Review, 172 (1). pp. 148-153. ISSN 0031-899X https://doi.org/10.1103/PhysRev.172.148 doi:10.1103/PhysRev.172.148
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic Q Science (General)
QC Physics
spellingShingle Q Science (General)
QC Physics
Greig, J.R.
Lim, C.P.
Moo-Young, G.A.
Palumbo, G.
Griem, Hans R.
Measurements of the Stark Broadening of Two Neutral Helium Lines in a Plasma
description A detailed study has been made of the broadening of the lines λ3889 (width only) and λ5016 (shift and width) of neutral helium in the plasma produced in an electromagnetically driven T tube operating in helium-hydrogen gas mixtures. The electron density in the plasma was found from the broadening of Hβ, while the temperature was determined from the ratio of the intensity of Hβ to that of the underlying continuum. Temperatures were in the range 20 000-30 000°K; electron densities varied from 1016 to 6×1017 cm-3. The broadening of the line λ3889 was found to increase linearly with electron density; and it compared well with calculations based on the generalized impact theory, except for (constant) correction factors ranging from about 0.9 to 1.0 (depending on which of the various calculations is referred to). For the line λ5016, neither of the previous calculations, nor a correction discussed here, predicts either the width or the shift variations satisfactorily; all the calculations give significantly wider lines above electron densities of 1017 cm-3 than are found experimentally. Also, as the electron density increases, the calculated shifts all become increasingly larger than those found experimentally. However, at the low densities most deviations are small (20%). © 1968 The American Physical Society.
format Article
author Greig, J.R.
Lim, C.P.
Moo-Young, G.A.
Palumbo, G.
Griem, Hans R.
author_facet Greig, J.R.
Lim, C.P.
Moo-Young, G.A.
Palumbo, G.
Griem, Hans R.
author_sort Greig, J.R.
title Measurements of the Stark Broadening of Two Neutral Helium Lines in a Plasma
title_short Measurements of the Stark Broadening of Two Neutral Helium Lines in a Plasma
title_full Measurements of the Stark Broadening of Two Neutral Helium Lines in a Plasma
title_fullStr Measurements of the Stark Broadening of Two Neutral Helium Lines in a Plasma
title_full_unstemmed Measurements of the Stark Broadening of Two Neutral Helium Lines in a Plasma
title_sort measurements of the stark broadening of two neutral helium lines in a plasma
publisher American Physical Society
publishDate 1968
url http://eprints.um.edu.my/25594/
https://doi.org/10.1103/PhysRev.172.148
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score 13.211869