X-UV INTERFERENTIAL MIRRORS AND NEW POSSIBILITIES FOR PLASMA RADIATION STUDIES

High-sensitivity interferometry measurements of initial density distributions are reviewed for a wide range of gas-puff nozzles used in plasma radiation source (PRS) z-pinch experiments. Accurate gas distributions are required for determining experimental load parameters, modeling implosion dynamics, understanding the radiation properties of the stagnated pinch, and for predicting PRS performance in future experiments. For a number of these nozzles, a simple ballistic-gas-flow model (BFM) has been used to provide good physics-based analytic fits to the measured r, z density distributions. These BFM fits provide a convenient means to smoothly interpolate radial density distributions between discrete axial measurement locations for finer-zoned two-dimensional MHD calculations, and can be used to determine how changes in nozzle parameters and load geometry might alter implosion dynamics and radiation performance. These measurement and analysis techniques are demonstrated for a nested-shell nozzle used in Double Eagle and Saturn experiments. For this nozzle, the analysis suggests load modifications that may increase the K-shell yield.

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Plasma Radiation

Nature ◽

10.1038/215104b0 ◽

1967 ◽

Vol 215 (5096) ◽

pp. 104-105

Author(s):

T. J. M. BOYD

Keyword(s):

Plasma Radiation

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15-01 VVUQ for Computational Electromagnetics, Plasma, Radiation Transport Sessions

10.1115/1.0005088v ◽

2021 ◽

Author(s):

Derek Armstrong ◽

Jim Ferguson

Keyword(s):

Radiation Transport ◽

Computational Electromagnetics ◽

Plasma Radiation

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Tomotok: python package for tomography of tokamak plasma radiation

Journal of Instrumentation ◽

10.1088/1748-0221/16/12/c12015 ◽

2021 ◽

Vol 16 (12) ◽

pp. C12015

Author(s):

J. Svoboda ◽

J. Cavalier ◽

O. Ficker ◽

M. Imríšek ◽

J. Mlynář ◽

...

Keyword(s):

Diagnostic System ◽

Plasma Radiation ◽

Tokamak Plasma ◽

Tomographic Inversion ◽

Inversion Methods ◽

Building Geometry ◽

User Friendly ◽

Academy Of Sciences ◽

Near Future ◽

Python Package

Abstract A python package, called Tomotok, focused on performing tomographic inversion of tokamak plasma radiation is being developed at the Institute of Plasma Physics of the Czech Academy of Sciences. It aims at providing multiple inversion algorithms with an user friendly interface. In order to enable and ease performing tomographic inversion on different devices worldwide, it is planned to publish this software as open source in the near future. In this contribution, the package structure allowing an easy implementation of various tokamak and diagnostic geometries is described and an overview of the package contents is given. Apart from inversion methods, overview of Tomotok auxiliary content is given. The package provides tools for creating simple synthetic diagnostic system. These can be used for testing and benchmarking the code. This includes tools for building geometry matrices that describe the view of detectors using single line of sight approximation and artificial data generators capable of creating simple or hollow Gaussian profiles. The implemented inversion methods cover the minimum Fisher regularisation, biorthogonal decomposition and linear algebraic methods. The implementation of each method is explained, example results obtained by inverting phantom models are presented and discussed. The computation speed of implemented algorithms is benchmarked and compared.

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Measurement of the spatial characteristics of an erosive silicon laser plasma using small-sized high-resolution spectrometers

Izmeritel`naya Tekhnika ◽

10.32446/0368-1025it.2021-1-38-42 ◽

2021 ◽

pp. 38-42

Author(s):

Boris A. Lapshinov ◽

Nikolay I. Timchenko

Keyword(s):

Laser Plasma ◽

Emission Spectra ◽

Target Surface ◽

Spectral Lines ◽

Slit Diaphragm ◽

Plasma Radiation ◽

Atmospheric Conditions ◽

Spatial Characteristics ◽

Silicon Target ◽

Oriented Parallel

The spatial characteristics of the erosion laser plasma are investigated. The application of small-sized spectrometers of the visible and ultraviolet ranges for recording the spectrum of plasma radiation is considered. Erosive laser plasma is formed on the surface of a silicon target under the action of pulsed laser radiation with a wavelength of 1064 nm under normal atmospheric conditions. The laser plasma torch was scanned using a movable slit diaphragm oriented parallel to the target surface. The emission of erosion laser plasma was recorded using small-size spectrometers. Based on the obtained plasma emission spectra, the dependences of the intensity of the spectral lines of silicon on the geometric position of the slit diaphragm are revealed. A comparison is made of the intensities of the spectral lines of silicon on the polished and grinded sides of the target.

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Influence of hot electrons on the spectra of iron plasma irradiated by femtosecond laser pulses with 1021 W/cm2 intensities

Laser and Particle Beams ◽

10.1017/s026303461600077x ◽

2017 ◽

Vol 35 (1) ◽

pp. 92-99 ◽

Cited By ~ 3

Author(s):

A. Stafford ◽

A.S. Safronova ◽

A.Ya. Faenov ◽

T.A. Pikuz ◽

R. Kodama ◽

...

Keyword(s):

Laser Pulses ◽

Time Frame ◽

Femtosecond Laser Pulses ◽

Hot Electrons ◽

Plasma Radiation ◽

X Ray ◽

Laser Plasma Interaction ◽

Multiply Charged ◽

Interaction Experiment ◽

Charged Ions

AbstractThe use of laboratory experiments as plasma creating sources is a valuable tool for understanding astrophysical observations. Recently plasma created through irradiation by lasers with relativistic intensities has been used to study effects of hot electrons and X-ray pumping on X-ray formation of multiply charged ions spectra. This paper discusses the formation of K-shell Fe spectra recorded from a plasma irradiated by 35 fs pulses with intensities of 1021 W/cm2. Modeling of the spectra suggests three different regions of plasma radiation including a cold ~10 eV region, a mild ~700 eV region, and a hot ~3500 eV region. The influence of hot electrons and X-ray pumping is discussed and a comparison with K-shell Fe spectra from a 1 MA X-pinch experiment is included to highlight the differences due to the shorter time frame of the laser–plasma interaction experiment.

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Calculation of Plasma Radiation in Electrothermal-Chemical Launcher

Plasma Science and Technology ◽

10.1088/1009-0630/16/1/11 ◽

2014 ◽

Vol 16 (1) ◽

pp. 50-53 ◽

Cited By ~ 8

Author(s):

Yong Jin ◽

Baoming Li

Keyword(s):

Plasma Radiation

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