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Development of Compton radiography using high-Z backlighters produced by ultra-intense lasers

John Seely and Glenn Holland Naval Research Laboratory, Washington DC Larry Hudson and Csilla Szabo National Institute of Standards and Technology, Gaithersburg MD High-energy x-ray backlighters will be valuable for radiography experiments at the National Ignition Facility (NIF), and for radiography...

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Main Authors:	Tommasini, Riccardo, Park, Hye-Sook, Patel, Prav, Maddox, Brian, Le Pape, Sebastien, Hatchett, Stephen P, Remington, Bruce A, Key, Michael H, Izumi, Nobuhiko, Tabak, Max, Koch, Jeffrey A, Landen, Otto L, Hey, Dan, MacKinnon, Andy, Seely, John, Holland, Glenn, Hudson, Larry, Szabo, Csilla
Format:	Conference Proceeding
Language:	English
Subjects:	70 PLASMA PHYSICS AND FUSION TECHNOLOGY CHARGE-COUPLED DEVICES COMPTON EFFECT INERTIAL CONFINEMENT IRRADIATION KEV RANGE LASERS LAWRENCE LIVERMORE NATIONAL LABORATORY PLASMA PLASMA DIAGNOSTICS PULSES US NATIONAL IGNITION FACILITY X RADIATION X-RAY SPECTROSCOPY
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creator	Tommasini, Riccardo Park, Hye-Sook Patel, Prav Maddox, Brian Le Pape, Sebastien Hatchett, Stephen P Remington, Bruce A Key, Michael H Izumi, Nobuhiko Tabak, Max Koch, Jeffrey A Landen, Otto L Hey, Dan MacKinnon, Andy Seely, John Holland, Glenn Hudson, Larry Szabo, Csilla
description	John Seely and Glenn Holland Naval Research Laboratory, Washington DC Larry Hudson and Csilla Szabo National Institute of Standards and Technology, Gaithersburg MD High-energy x-ray backlighters will be valuable for radiography experiments at the National Ignition Facility (NIF), and for radiography of imploded inertial confinement fusion cores using Compton scattering to observe cold, dense plasma. Key considerations are the available backlight brightness, and the backlight size. To quantify these parameters we have characterized the emission from low- and high-Z planar foils irradiated by intense picosecond and femtosecond laser pulses from the TITAN laser facility at Lawrence Livermore National Laboratory. Spectra generated by a sequence of elements from Mo to Pb, spanning the x-ray energy range from 17 keV to 75 keV, have been recorded using a Charged Coupled Device (CCD) in single hit regime and a Dual Crystal Spectrometer (DCS). High-resolution point-projection 2D radiographs have also been recorded on Fuji BaFBr:Eu2 image plates using calibrated resolution grids. We discuss the results in light of the requirements for applications at NIF.
doi_str_mv	10.1063/1.2768857
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Key considerations are the available backlight brightness, and the backlight size. To quantify these parameters we have characterized the emission from low- and high-Z planar foils irradiated by intense picosecond and femtosecond laser pulses from the TITAN laser facility at Lawrence Livermore National Laboratory. Spectra generated by a sequence of elements from Mo to Pb, spanning the x-ray energy range from 17 keV to 75 keV, have been recorded using a Charged Coupled Device (CCD) in single hit regime and a Dual Crystal Spectrometer (DCS). High-resolution point-projection 2D radiographs have also been recorded on Fuji BaFBr:Eu2 image plates using calibrated resolution grids. 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subjects	70 PLASMA PHYSICS AND FUSION TECHNOLOGY CHARGE-COUPLED DEVICES COMPTON EFFECT INERTIAL CONFINEMENT IRRADIATION KEV RANGE LASERS LAWRENCE LIVERMORE NATIONAL LABORATORY PLASMA PLASMA DIAGNOSTICS PULSES US NATIONAL IGNITION FACILITY X RADIATION X-RAY SPECTROSCOPY
title	Development of Compton radiography using high-Z backlighters produced by ultra-intense lasers
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