X-ray and EUV diagnostics for the Nevada Terawatt Facility: plasma imaging, spectroscopy, and polarimetry

Summary form only given. A wide variety of advanced extreme ultraviolet (EUV) and X-ray diagnostics are being developed for the Nevada Terawatt Facility (NTF) at the University of Nevada, Reno. Time-resolved short-wavelength imaging, backlighting, imaging spectroscopy, and polarization spectroscopy...

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Published in:	IEEE Conference Record - Abstracts. 1999 IEEE International Conference on Plasma Science. 26th IEEE International Conference (Cat. No.99CH36297) p. 307
Main Authors:	Kantsyrev, V.L., Bauer, B.S., Mancini, R.C., Shlyaptseva, A.S., Fdin, D.A., Golovkin, A., Hakel, P., Paraschiv, I., Ammons, N., Hansen, S.
Format:	Conference Proceeding
Language:	English
Published:	IEEE 1999
Subjects:	Density measurement Density measurement (specific gravity) Emission spectroscopy Imaging techniques Magnetic field measurement Plasma density Plasma diagnostics Plasma flow Plasma measurements Plasma temperature Plasma x-ray sources Polarimeters Spectroscopy Temperature measurement Ultraviolet sources Ultraviolet spectroscopy X ray spectrometers X-ray imaging
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Abstract	Summary form only given. A wide variety of advanced extreme ultraviolet (EUV) and X-ray diagnostics are being developed for the Nevada Terawatt Facility (NTF) at the University of Nevada, Reno. Time-resolved short-wavelength imaging, backlighting, imaging spectroscopy, and polarization spectroscopy will be employed to measure profiles of plasma temperature, density, flow, charge state, and magnetic field. The instruments are state-of-the-art applications of glass capillary converters (GCC), multilayer mirrors (MLM), and crystals. The devices include: a prototype of a new glass-capillary-based two-dimensional imaging spectrometer; a pinhole camera with 6 MCP imagers; a 5-channel crystal/MLM spectrometer ("Polychromator") with fast X-ray diodes and an added transmission grating spectrometer; a convex-crystal X-ray survey spectrometer; a prototype of an X-ray polarimeter/spectrometer; and a multiframe X-pinch backlighter yielding point-projection microscopy with few-micron, sub-ns resolution. Spectroscopic data will be interpreted with state-of-the-art spectral calculations that take into account line intensity, plasma broadening, opacity, and polarization effects, for both resonance and satellite lines. Emission spectroscopy will be used to measure plasma density and temperature in the hot plasma around exploding wires, with polarization measurements helping to determine the electron distribution function and the magnetic field in this region. The density and temperature of the high-density, low-temperature plasma inside exploding Al wires will be measured with absorption spectroscopy.
AbstractList	Summary form only given. A wide variety of advanced extreme ultraviolet (EUV) and X-ray diagnostics are being developed for the Nevada Terawatt Facility (NTF) at the University of Nevada, Reno. Time-resolved short-wavelength imaging, backlighting, imaging spectroscopy, and polarization spectroscopy will be employed to measure profiles of plasma temperature, density, flow, charge state, and magnetic field. The instruments are state-of-the-art applications of glass capillary converters (GCC), multilayer mirrors (MLM), and crystals. The devices include: a prototype of a new glass-capillary-based two-dimensional imaging spectrometer; a pinhole camera with 6 MCP imagers; a 5-channel crystal/MLM spectrometer ("Polychromator") with fast X-ray diodes and an added transmission grating spectrometer; a convex-crystal X-ray survey spectrometer; a prototype of an X-ray polarimeter/spectrometer; and a multiframe X-pinch backlighter yielding point-projection microscopy with few-micron, sub-ns resolution. Spectroscopic data will be interpreted with state-of-the-art spectral calculations that take into account line intensity, plasma broadening, opacity, and polarization effects, for both resonance and satellite lines. Emission spectroscopy will be used to measure plasma density and temperature in the hot plasma around exploding wires, with polarization measurements helping to determine the electron distribution function and the magnetic field in this region. The density and temperature of the high-density, low-temperature plasma inside exploding Al wires will be measured with absorption spectroscopy. A wide variety of advanced extreme ultraviolet (EUV) and x-ray diagnostics are being developed for the Nevada Terawatt Facility (NTF) at the University of Nevada, Reno. Time-resolved short-wavelength imaging, backlighting, imaging spectroscopy, and polarization spectroscopy will be employed to measure profiles of plasma temperature, density, flow, charge state, and magnetic field. These diagnostics will be used to examine the early-time evolution of a current-driven wire, the formation of a plasma sheet from the explosion and merging of wires, etc. (see previous poster). Wire materials will include Al, Ti, W, and various coatings (e.g., Mg, Ni, Cu). Doping of local regions of wires is planned, for additional spatial resolution of the plasma profiles. The instruments are state-of-the-art applications of glass capillary converters (GCC), multilayer mirrors (MLM), and crystals. The devices include: a prototype of a new glass-capillary-based two-dimensional imaging spectrometer; a pinhole camera with 6 MCP imagers; a 5-channel crystal/MLM spectrometer (`Polychromator') with fast x-ray diodes and an added transmission grating spectrometer; a convex-crystal x-ray survey spectrometer; a prototype of an x-ray polarimeter/spectrometer; and a multiframe x-pinch backlighter yielding point-projection microscopy with few-micron, sub-ns resolution. Spectroscopic data will be interpreted with state-of-the-art spectral calculations that take into account line intensity, plasma broadening, opacity, and polarization effects, for both resonance and satellite lines. Emission spectroscopy will be used to measure plasma density and temperature in the hot plasma around exploding wires, with polarization measurements helping to determine the electron distribution function and the magnetic field in this region. The density and temperature of the high-density, low-temperature plasma inside exploding Al wires will be measured with absorption spectroscopy.
Author	Kantsyrev, V.L. Hakel, P. Mancini, R.C. Shlyaptseva, A.S. Paraschiv, I. Hansen, S. Bauer, B.S. Golovkin, A. Ammons, N. Fdin, D.A.
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Snippet	Summary form only given. A wide variety of advanced extreme ultraviolet (EUV) and X-ray diagnostics are being developed for the Nevada Terawatt Facility (NTF)... A wide variety of advanced extreme ultraviolet (EUV) and x-ray diagnostics are being developed for the Nevada Terawatt Facility (NTF) at the University of...
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SubjectTerms	Density measurement Density measurement (specific gravity) Emission spectroscopy Imaging techniques Magnetic field measurement Plasma density Plasma diagnostics Plasma flow Plasma measurements Plasma temperature Plasma x-ray sources Polarimeters Spectroscopy Temperature measurement Ultraviolet sources Ultraviolet spectroscopy X ray spectrometers X-ray imaging
Title	X-ray and EUV diagnostics for the Nevada Terawatt Facility: plasma imaging, spectroscopy, and polarimetry
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