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Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases

Comparative study of fast focus mode (FFM) and slow focus mode (SFM) of INTI Plasma Focus device at 12 kV, based on Lee Model, are presented in this paper. Results of numerical experiments for D, Ne, and Ar gases at different pressure ranges show that as a rule-of-thumb, diameter-optimized SFM is co...

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Main Authors: Saw, S. H., V., Damideh, Chin, O.H., J., Ali, Lee, P. C. K., R.S., Rawat, Lee, S.
Format: Article
Published: Elsevier 2019
Subjects:
QC Physics
Online Access:http://eprints.intimal.edu.my/1351/
https://doi.org/10.1016/j.vacuum.2019.04.042
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spelling my-inti-eprints.13512019-12-11T03:17:18Z http://eprints.intimal.edu.my/1351/ Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases Saw, S. H. V., Damideh Chin, O.H. J., Ali Lee, P. C. K. R.S., Rawat Lee, S. QC Physics Comparative study of fast focus mode (FFM) and slow focus mode (SFM) of INTI Plasma Focus device at 12 kV, based on Lee Model, are presented in this paper. Results of numerical experiments for D, Ne, and Ar gases at different pressure ranges show that as a rule-of-thumb, diameter-optimized SFM is considered to occur when fast plasma stream speed generated by pinch column is equal to the peak axial phase speed. SFM occurs at the high-pressure range of operation when beam ion energy is typically less than a few keV. Results of speed factor, fast ion beam energy, FPS energy, FIB damage factor, plasma footprint radius for FFM and SFM at different pressures of D, Ne, and Ar are presented. These results may be used to predict different applications of both modes: for example, the intense beam and flow energetics in FFM may be of interest in irradiation of surfaces for damage studies; whilst in SFM, the larger area of reduced intensity of plasma flow and very low energy per beam ion result in more uniform irradiation over a larger area of target. This larger more uniform area of irradiation has distinct advantages in nanophase material synthesis by diameter-optimized SFM. Elsevier 2019 Article PeerReviewed Saw, S. H. and V., Damideh and Chin, O.H. and J., Ali and Lee, P. C. K. and R.S., Rawat and Lee, S. (2019) Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases. Vacuum, 165. pp. 337-342. ISSN 0042-207X https://doi.org/10.1016/j.vacuum.2019.04.042
institution INTI International University
building INTI Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider INTI International University
content_source INTI Institutional Repository
url_provider http://eprints.intimal.edu.my
topic QC Physics
spellingShingle QC Physics
Saw, S. H.
V., Damideh
Chin, O.H.
J., Ali
Lee, P. C. K.
R.S., Rawat
Lee, S.
Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases
description Comparative study of fast focus mode (FFM) and slow focus mode (SFM) of INTI Plasma Focus device at 12 kV, based on Lee Model, are presented in this paper. Results of numerical experiments for D, Ne, and Ar gases at different pressure ranges show that as a rule-of-thumb, diameter-optimized SFM is considered to occur when fast plasma stream speed generated by pinch column is equal to the peak axial phase speed. SFM occurs at the high-pressure range of operation when beam ion energy is typically less than a few keV. Results of speed factor, fast ion beam energy, FPS energy, FIB damage factor, plasma footprint radius for FFM and SFM at different pressures of D, Ne, and Ar are presented. These results may be used to predict different applications of both modes: for example, the intense beam and flow energetics in FFM may be of interest in irradiation of surfaces for damage studies; whilst in SFM, the larger area of reduced intensity of plasma flow and very low energy per beam ion result in more uniform irradiation over a larger area of target. This larger more uniform area of irradiation has distinct advantages in nanophase material synthesis by diameter-optimized SFM.
format Article
author Saw, S. H.
V., Damideh
Chin, O.H.
J., Ali
Lee, P. C. K.
R.S., Rawat
Lee, S.
author_facet Saw, S. H.
V., Damideh
Chin, O.H.
J., Ali
Lee, P. C. K.
R.S., Rawat
Lee, S.
author_sort Saw, S. H.
title Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases
title_short Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases
title_full Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases
title_fullStr Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases
title_full_unstemmed Comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kJ plasma focus operated in various gases
title_sort comparative numerical study of the dynamics, ion beam and flow energetics of fast and slow focus modes in a 2 kj plasma focus operated in various gases
publisher Elsevier
publishDate 2019
url http://eprints.intimal.edu.my/1351/
https://doi.org/10.1016/j.vacuum.2019.04.042
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score 13.160551

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