Block matrix based LU decomposition to analyze kinetic damping in active plasma resonance spectroscopy

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Block matrix based LU decomposition to analyze kinetic damping in active plasma resonance spectroscopy. / Röhl, Jan Hendrik; Oberrath, Jens.
in: Bulletin of the American Physical Society, Jahrgang 61, Nr. 9, 10.2016, S. 79.

Publikation: Beiträge in ZeitschriftenKonferenz-Abstracts in FachzeitschriftenForschungbegutachtet

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@article{fd79cf3940d54247b08d5e60765e56a1,
title = "Block matrix based LU decomposition to analyze kinetic damping in active plasma resonance spectroscopy",
abstract = "`Active plasma resonance spectroscopy'' (APRS) is a widely used diagnostic method to measure plasma parameter like electron density. Measurements with APRS probes in plasmas of a few Pa typically show a broadening of the spectrum due to kinetic effects. To analyze the broadening a general kinetic model in electrostatic approximation based on functional analytic methods has been presented [1]. One of the main results is, that the system response function Y(ω) is given in terms of the matrix elements of the resolvent of the dynamic operator evaluated for values on the imaginary axis. To determine the response function of a specific probe the resolvent has to be approximated by a huge matrix which is given by a banded block structure. Due to this structure a block based LU decomposition can be implemented. It leads to a solution of Y(ω) which is given only by products of matrices of the inner block size. This LU decomposition allows to analyze the influence of kinetic effects on the broadening and saves memory and calculation time.\\ [1] J. Oberrath and R.P. Brinkmann, Plasma Sources Sci. Technol. {\bf 23}, 045006 (2014). ",
keywords = "Engineering",
author = "R{\"o}hl, {Jan Hendrik} and Jens Oberrath",
note = "69th Annual Gaseous Electronics Conference, October 10–14, 2016; Bochum, Germany. Abstract: MW6.00078 ",
year = "2016",
month = oct,
language = "English",
volume = "61",
pages = "79",
journal = "Bulletin of the American Physical Society",
issn = "0003-0503",
publisher = "American Physical Society",
number = "9",

}

RIS

TY - JOUR

T1 - Block matrix based LU decomposition to analyze kinetic damping in active plasma resonance spectroscopy

AU - Röhl, Jan Hendrik

AU - Oberrath, Jens

N1 - 69th Annual Gaseous Electronics Conference, October 10–14, 2016; Bochum, Germany. Abstract: MW6.00078

PY - 2016/10

Y1 - 2016/10

N2 - `Active plasma resonance spectroscopy'' (APRS) is a widely used diagnostic method to measure plasma parameter like electron density. Measurements with APRS probes in plasmas of a few Pa typically show a broadening of the spectrum due to kinetic effects. To analyze the broadening a general kinetic model in electrostatic approximation based on functional analytic methods has been presented [1]. One of the main results is, that the system response function Y(ω) is given in terms of the matrix elements of the resolvent of the dynamic operator evaluated for values on the imaginary axis. To determine the response function of a specific probe the resolvent has to be approximated by a huge matrix which is given by a banded block structure. Due to this structure a block based LU decomposition can be implemented. It leads to a solution of Y(ω) which is given only by products of matrices of the inner block size. This LU decomposition allows to analyze the influence of kinetic effects on the broadening and saves memory and calculation time.\\ [1] J. Oberrath and R.P. Brinkmann, Plasma Sources Sci. Technol. {\bf 23}, 045006 (2014).

AB - `Active plasma resonance spectroscopy'' (APRS) is a widely used diagnostic method to measure plasma parameter like electron density. Measurements with APRS probes in plasmas of a few Pa typically show a broadening of the spectrum due to kinetic effects. To analyze the broadening a general kinetic model in electrostatic approximation based on functional analytic methods has been presented [1]. One of the main results is, that the system response function Y(ω) is given in terms of the matrix elements of the resolvent of the dynamic operator evaluated for values on the imaginary axis. To determine the response function of a specific probe the resolvent has to be approximated by a huge matrix which is given by a banded block structure. Due to this structure a block based LU decomposition can be implemented. It leads to a solution of Y(ω) which is given only by products of matrices of the inner block size. This LU decomposition allows to analyze the influence of kinetic effects on the broadening and saves memory and calculation time.\\ [1] J. Oberrath and R.P. Brinkmann, Plasma Sources Sci. Technol. {\bf 23}, 045006 (2014).

KW - Engineering

UR - http://meetings.aps.org/Meeting/GEC16/Session/MW6.78

M3 - Conference abstract in journal

VL - 61

SP - 79

JO - Bulletin of the American Physical Society

JF - Bulletin of the American Physical Society

SN - 0003-0503

IS - 9

ER -

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