Producing kiloelectronvolt L-shell plasmas on zebra at UNR

Alla S. Safronova; Victor L. Kantsyrev; Andrey A. Esaulov; Ishor Shrestha; Veronica V. Shlyaptseva; Michael E. Weller; Nicholas D. Ouart; Glenn C. Osborne; Austin Stafford; Steven F. Keim; Alexander L. Velikovich; John L. Giuliani; A. S. Chuvatin

doi:10.1109/TPS.2012.2222451

Producing kiloelectronvolt L-shell plasmas on zebra at UNR

Alla S. Safronova, Victor L. Kantsyrev, Andrey A. Esaulov, Ishor Shrestha, Veronica V. Shlyaptseva, Michael E. Weller, Nicholas D. Ouart, Glenn C. Osborne, Austin Stafford, Steven F. Keim, Alexander L. Velikovich, John L. Giuliani, A. S. Chuvatin

Research output: Contribution to journal › Article › peer-review

Abstract

Experiments with various wire loads from mid-atomic-number wires, which were performed on the university-scale 1-MA Zebra generator at the University of Nevada, Reno, during the last few years, are analyzed to assess the highest electron temperature reached. In particular, the results from experiments with planar wire arrays (PWAs) were considered. Load materials from mid-atomic-number such as stainless steel, Alumel, Cu, brass, Mo, and up to Ag were used to generate L-shell plasmas and to study plasma parameters. Though the full diagnostic set was utilized, the main focus was on X-ray spectroscopic data and on the non-local thermodynamic equilibrium kinetic modeling. As a result, the scaling of the maximum T_e with the load material atomic number is presented for the first time in the range from Fe to Ag for L-shell plasmas from PWAs. The highest values of the electron temperature in L-shell plasmas, which are estimated from the modeling, were from both Ag PWAs and X-pinches. This work is important for the development of efficient X-ray radiators on university-scale Z-pinch generators.

Original language	English
Article number	6338343
Pages (from-to)	3347-3353
Number of pages	7
Journal	IEEE Transactions on Plasma Science
Volume	40
Issue number	12
DOIs	https://doi.org/10.1109/TPS.2012.2222451
Publication status	Published - 12 Nov 2012

Keywords

Kiloelectronvolt plasmas
X-pinch
X-ray spectra
kinetic modeling
wire array

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10.1109/TPS.2012.2222451

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Safronova, A. S., Kantsyrev, V. L., Esaulov, A. A., Shrestha, I., Shlyaptseva, V. V., Weller, M. E., Ouart, N. D., Osborne, G. C., Stafford, A., Keim, S. F., Velikovich, A. L., Giuliani, J. L., & Chuvatin, A. S. (2012). Producing kiloelectronvolt L-shell plasmas on zebra at UNR. IEEE Transactions on Plasma Science, 40(12), 3347-3353. Article 6338343. https://doi.org/10.1109/TPS.2012.2222451

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title = "Producing kiloelectronvolt L-shell plasmas on zebra at UNR",

abstract = "Experiments with various wire loads from mid-atomic-number wires, which were performed on the university-scale 1-MA Zebra generator at the University of Nevada, Reno, during the last few years, are analyzed to assess the highest electron temperature reached. In particular, the results from experiments with planar wire arrays (PWAs) were considered. Load materials from mid-atomic-number such as stainless steel, Alumel, Cu, brass, Mo, and up to Ag were used to generate L-shell plasmas and to study plasma parameters. Though the full diagnostic set was utilized, the main focus was on X-ray spectroscopic data and on the non-local thermodynamic equilibrium kinetic modeling. As a result, the scaling of the maximum Te with the load material atomic number is presented for the first time in the range from Fe to Ag for L-shell plasmas from PWAs. The highest values of the electron temperature in L-shell plasmas, which are estimated from the modeling, were from both Ag PWAs and X-pinches. This work is important for the development of efficient X-ray radiators on university-scale Z-pinch generators.",

keywords = "Kiloelectronvolt plasmas, X-pinch, X-ray spectra, kinetic modeling, wire array",

author = "Safronova, \{Alla S.\} and Kantsyrev, \{Victor L.\} and Esaulov, \{Andrey A.\} and Ishor Shrestha and Shlyaptseva, \{Veronica V.\} and Weller, \{Michael E.\} and Ouart, \{Nicholas D.\} and Osborne, \{Glenn C.\} and Austin Stafford and Keim, \{Steven F.\} and Velikovich, \{Alexander L.\} and Giuliani, \{John L.\} and Chuvatin, \{A. S.\}",

year = "2012",

month = nov,

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doi = "10.1109/TPS.2012.2222451",

language = "English",

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AU - Safronova, Alla S.

AU - Kantsyrev, Victor L.

AU - Esaulov, Andrey A.

AU - Shrestha, Ishor

AU - Shlyaptseva, Veronica V.

AU - Weller, Michael E.

AU - Ouart, Nicholas D.

AU - Osborne, Glenn C.

AU - Stafford, Austin

AU - Keim, Steven F.

AU - Velikovich, Alexander L.

AU - Giuliani, John L.

AU - Chuvatin, A. S.

PY - 2012/11/12

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N2 - Experiments with various wire loads from mid-atomic-number wires, which were performed on the university-scale 1-MA Zebra generator at the University of Nevada, Reno, during the last few years, are analyzed to assess the highest electron temperature reached. In particular, the results from experiments with planar wire arrays (PWAs) were considered. Load materials from mid-atomic-number such as stainless steel, Alumel, Cu, brass, Mo, and up to Ag were used to generate L-shell plasmas and to study plasma parameters. Though the full diagnostic set was utilized, the main focus was on X-ray spectroscopic data and on the non-local thermodynamic equilibrium kinetic modeling. As a result, the scaling of the maximum Te with the load material atomic number is presented for the first time in the range from Fe to Ag for L-shell plasmas from PWAs. The highest values of the electron temperature in L-shell plasmas, which are estimated from the modeling, were from both Ag PWAs and X-pinches. This work is important for the development of efficient X-ray radiators on university-scale Z-pinch generators.

AB - Experiments with various wire loads from mid-atomic-number wires, which were performed on the university-scale 1-MA Zebra generator at the University of Nevada, Reno, during the last few years, are analyzed to assess the highest electron temperature reached. In particular, the results from experiments with planar wire arrays (PWAs) were considered. Load materials from mid-atomic-number such as stainless steel, Alumel, Cu, brass, Mo, and up to Ag were used to generate L-shell plasmas and to study plasma parameters. Though the full diagnostic set was utilized, the main focus was on X-ray spectroscopic data and on the non-local thermodynamic equilibrium kinetic modeling. As a result, the scaling of the maximum Te with the load material atomic number is presented for the first time in the range from Fe to Ag for L-shell plasmas from PWAs. The highest values of the electron temperature in L-shell plasmas, which are estimated from the modeling, were from both Ag PWAs and X-pinches. This work is important for the development of efficient X-ray radiators on university-scale Z-pinch generators.

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KW - X-pinch

KW - X-ray spectra

KW - kinetic modeling

KW - wire array

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DO - 10.1109/TPS.2012.2222451

M3 - Article

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JO - IEEE Transactions on Plasma Science

JF - IEEE Transactions on Plasma Science

IS - 12

M1 - 6338343

ER -

Producing kiloelectronvolt L-shell plasmas on zebra at UNR

Abstract

Keywords

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