Numerical experiments on neutron yield and soft x-ray study of a ∼100 kJ plasma focus using the current profile fitting technique

Numerical experiments using the Lee model were performed to study the neutron yield and soft x-ray emission from the IR-MPF-100 plasma focus using the current fitting technique. The mass sweeping factor and the current factor for the axial and radial phase were used to represent the imperfections...

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Main Authors: Ong, S. T., Chaudhary, K., Ali, J., Lee, S.
Format: Article
Language:English
Published: IOP Publishing 2014
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Online Access:http://eprints.intimal.edu.my/343/1/numerical-experiments-on-neutron-yield-and-soft-x-ray-study-of-a-100-kj-plasma-focus-using-the-current-profile-fitting-technique.pdf
http://eprints.intimal.edu.my/343/
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spelling my-inti-eprints.3432016-09-23T08:57:32Z http://eprints.intimal.edu.my/343/ Numerical experiments on neutron yield and soft x-ray study of a ∼100 kJ plasma focus using the current profile fitting technique Ong, S. T. Chaudhary, K. Ali, J. Lee, S. QC Physics Numerical experiments using the Lee model were performed to study the neutron yield and soft x-ray emission from the IR-MPF-100 plasma focus using the current fitting technique. The mass sweeping factor and the current factor for the axial and radial phase were used to represent the imperfections encountered in experiments. All gross properties including the yields were realistically simulated once the computed and measured current profiles were well fitted. The computed neutron yield Yn was in agreement with the experimentally measured Yn at 20 kV (E0 ∼ 30 kJ) charging voltage. The optimum computed neutron yield of Yn = 1.238 × 109 neutrons per shot was obtained at optimum physics parameters of the plasma focus operated with deuterium gas. It was also observed that no soft x-rays were emitted from the IR-MPF-100 plasma focus operated with argon gas due to the absence of helium-like and hydrogen-like ions at a low plasma temperature (∼0.094 keV) and axial speed (8.12 cmμs−1). However, the soft x-ray yield can be achieved by increasing the charging voltage, using a higher ratio of outer anode radius to inner anode radius c or shorter anode length z0, or using neon as the operating gas. IOP Publishing 2014 Article PeerReviewed text en http://eprints.intimal.edu.my/343/1/numerical-experiments-on-neutron-yield-and-soft-x-ray-study-of-a-100-kj-plasma-focus-using-the-current-profile-fitting-technique.pdf Ong, S. T. and Chaudhary, K. and Ali, J. and Lee, S. (2014) Numerical experiments on neutron yield and soft x-ray study of a ∼100 kJ plasma focus using the current profile fitting technique. Plasma Physics and Controlled Fusion, 56 (7). ISSN 1361-6587 10.1088/0741-3335/56/7/075001
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
language English
topic QC Physics
spellingShingle QC Physics
Ong, S. T.
Chaudhary, K.
Ali, J.
Lee, S.
Numerical experiments on neutron yield and soft x-ray study of a ∼100 kJ plasma focus using the current profile fitting technique
description Numerical experiments using the Lee model were performed to study the neutron yield and soft x-ray emission from the IR-MPF-100 plasma focus using the current fitting technique. The mass sweeping factor and the current factor for the axial and radial phase were used to represent the imperfections encountered in experiments. All gross properties including the yields were realistically simulated once the computed and measured current profiles were well fitted. The computed neutron yield Yn was in agreement with the experimentally measured Yn at 20 kV (E0 ∼ 30 kJ) charging voltage. The optimum computed neutron yield of Yn = 1.238 × 109 neutrons per shot was obtained at optimum physics parameters of the plasma focus operated with deuterium gas. It was also observed that no soft x-rays were emitted from the IR-MPF-100 plasma focus operated with argon gas due to the absence of helium-like and hydrogen-like ions at a low plasma temperature (∼0.094 keV) and axial speed (8.12 cmμs−1). However, the soft x-ray yield can be achieved by increasing the charging voltage, using a higher ratio of outer anode radius to inner anode radius c or shorter anode length z0, or using neon as the operating gas.
format Article
author Ong, S. T.
Chaudhary, K.
Ali, J.
Lee, S.
author_facet Ong, S. T.
Chaudhary, K.
Ali, J.
Lee, S.
author_sort Ong, S. T.
title Numerical experiments on neutron yield and soft x-ray study of a ∼100 kJ plasma focus using the current profile fitting technique
title_short Numerical experiments on neutron yield and soft x-ray study of a ∼100 kJ plasma focus using the current profile fitting technique
title_full Numerical experiments on neutron yield and soft x-ray study of a ∼100 kJ plasma focus using the current profile fitting technique
title_fullStr Numerical experiments on neutron yield and soft x-ray study of a ∼100 kJ plasma focus using the current profile fitting technique
title_full_unstemmed Numerical experiments on neutron yield and soft x-ray study of a ∼100 kJ plasma focus using the current profile fitting technique
title_sort numerical experiments on neutron yield and soft x-ray study of a ∼100 kj plasma focus using the current profile fitting technique
publisher IOP Publishing
publishDate 2014
url http://eprints.intimal.edu.my/343/1/numerical-experiments-on-neutron-yield-and-soft-x-ray-study-of-a-100-kj-plasma-focus-using-the-current-profile-fitting-technique.pdf
http://eprints.intimal.edu.my/343/
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