A quantitative study of some sources of uncertainty in opacity
measurements
J. Pain, und F. Gilleron. (2019)cite arxiv:2001.03559Comment: submitted to "High Energy Density Physics".
Zusammenfassung
Laboratory (laser and Z-pinch) opacity measurements of well-characterized
plasmas provide data to assist inertial confinement fusion, astrophysics and
atomic-physics research. In order to test the atomic-physics codes devoted to
the calculation of radiative properties of hot plasmas, such experiments must
fulfill a number of requirements. In this work, we discuss some sources of
uncertainty in absorption-spectroscopy experiments, concerning areal mass,
background emission, intensity of the backlighter and self-emission of the
plasma. We also study the impact of spatial non-uniformities of the sample.
Beschreibung
A quantitative study of some sources of uncertainty in opacity measurements
%0 Generic
%1 pain2019quantitative
%A Pain, Jean-Christophe
%A Gilleron, Franck
%D 2019
%K opacity
%T A quantitative study of some sources of uncertainty in opacity
measurements
%U http://arxiv.org/abs/2001.03559
%X Laboratory (laser and Z-pinch) opacity measurements of well-characterized
plasmas provide data to assist inertial confinement fusion, astrophysics and
atomic-physics research. In order to test the atomic-physics codes devoted to
the calculation of radiative properties of hot plasmas, such experiments must
fulfill a number of requirements. In this work, we discuss some sources of
uncertainty in absorption-spectroscopy experiments, concerning areal mass,
background emission, intensity of the backlighter and self-emission of the
plasma. We also study the impact of spatial non-uniformities of the sample.
@misc{pain2019quantitative,
abstract = {Laboratory (laser and Z-pinch) opacity measurements of well-characterized
plasmas provide data to assist inertial confinement fusion, astrophysics and
atomic-physics research. In order to test the atomic-physics codes devoted to
the calculation of radiative properties of hot plasmas, such experiments must
fulfill a number of requirements. In this work, we discuss some sources of
uncertainty in absorption-spectroscopy experiments, concerning areal mass,
background emission, intensity of the backlighter and self-emission of the
plasma. We also study the impact of spatial non-uniformities of the sample.},
added-at = {2020-01-14T20:23:44.000+0100},
author = {Pain, Jean-Christophe and Gilleron, Franck},
biburl = {https://www.bibsonomy.org/bibtex/23aa47e9b43ae7214582faee8f9aea22c/ericblackman},
description = {A quantitative study of some sources of uncertainty in opacity measurements},
interhash = {bc0cba1661de9a29f85e78304225799e},
intrahash = {3aa47e9b43ae7214582faee8f9aea22c},
keywords = {opacity},
note = {cite arxiv:2001.03559Comment: submitted to "High Energy Density Physics"},
timestamp = {2020-01-14T20:23:44.000+0100},
title = {A quantitative study of some sources of uncertainty in opacity
measurements},
url = {http://arxiv.org/abs/2001.03559},
year = 2019
}