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Method for Measuring the Plasma Temperature at the GOL-NB Facility. / Polosatkin, S. V.; Pavlova, G. S.

In: Plasma Physics Reports, Vol. 50, No. 9, 27.10.2024, p. 1158-1164.

Research output: Contribution to journalArticlepeer-review

Harvard

Polosatkin, SV & Pavlova, GS 2024, 'Method for Measuring the Plasma Temperature at the GOL-NB Facility', Plasma Physics Reports, vol. 50, no. 9, pp. 1158-1164. https://doi.org/10.1134/S1063780X24600907

APA

Polosatkin, S. V., & Pavlova, G. S. (2024). Method for Measuring the Plasma Temperature at the GOL-NB Facility. Plasma Physics Reports, 50(9), 1158-1164. https://doi.org/10.1134/S1063780X24600907

Vancouver

Polosatkin SV, Pavlova GS. Method for Measuring the Plasma Temperature at the GOL-NB Facility. Plasma Physics Reports. 2024 Oct 27;50(9):1158-1164. doi: 10.1134/S1063780X24600907

Author

Polosatkin, S. V. ; Pavlova, G. S. / Method for Measuring the Plasma Temperature at the GOL-NB Facility. In: Plasma Physics Reports. 2024 ; Vol. 50, No. 9. pp. 1158-1164.

BibTeX

@article{de439a3614b34c4b8ccf7cc09e0ba9c2,
title = "Method for Measuring the Plasma Temperature at the GOL-NB Facility",
abstract = "Abstract: A new method is proposed for measuring the electron plasma temperature at the GOL-NB facility. The method is based on measuring the ratio between the intensities of the spectral lines emitted by the fast atoms injected into the plasma. The beams of fast hydrogen atoms used for heating the plasma at the GOL-NB facility contain not only atoms with a full energy (E) but also atoms with fractional energies (E/2, E/3, E/18) that appear as a result of the dissociation of the H, H, and H2O+ molecular ions. The spectral lines of the beam components with these energies (and, in particular, the hydrogen Hα line) can be resolved due to the Doppler shift caused by the difference between the atom speeds. For atoms with low energy, the excitation that leads to the photon emission occurs only due to their collisions with thermal electrons, while for atoms with high energy, a sufficient deposition into their excitation is given by their collisions with the plasma ions. This is why the ratio between the intensities of the lines of different beam components depends on the plasma electron temperature, and thus, it can be used to measure this temperature. At the beam energy of 24 keV, the proposed method can be used to measure the electron temperature in the range of up to 40 eV, which is of interest for the current experiments conducted at the GOL-NB facility. Note that measurement of the electron temperature higher than 20 eV requires that the ratio between the spectral line intensities be measured with an accuracy of the order of one percent, and that the attenuation of the neutral beam that passes through the plasma be measured with the same accuracy. The proposed method can be used at other fusion facilities that use fast hydrogen atom injection to measure the temperature of the edge plasma.",
keywords = "atomic beams, plasma diagnostic, plasma spectroscopy",
author = "Polosatkin, {S. V.} and Pavlova, {G. S.}",
note = "This work was supported by the Ministry of Science and Higher Education of the Russian Federation under the State Plan of Project Research",
year = "2024",
month = oct,
day = "27",
doi = "10.1134/S1063780X24600907",
language = "English",
volume = "50",
pages = "1158--1164",
journal = "Plasma Physics Reports",
issn = "1063-780X",
publisher = "PLEIADES PUBLISHING INC",
number = "9",

}

RIS

TY - JOUR

T1 - Method for Measuring the Plasma Temperature at the GOL-NB Facility

AU - Polosatkin, S. V.

AU - Pavlova, G. S.

N1 - This work was supported by the Ministry of Science and Higher Education of the Russian Federation under the State Plan of Project Research

PY - 2024/10/27

Y1 - 2024/10/27

N2 - Abstract: A new method is proposed for measuring the electron plasma temperature at the GOL-NB facility. The method is based on measuring the ratio between the intensities of the spectral lines emitted by the fast atoms injected into the plasma. The beams of fast hydrogen atoms used for heating the plasma at the GOL-NB facility contain not only atoms with a full energy (E) but also atoms with fractional energies (E/2, E/3, E/18) that appear as a result of the dissociation of the H, H, and H2O+ molecular ions. The spectral lines of the beam components with these energies (and, in particular, the hydrogen Hα line) can be resolved due to the Doppler shift caused by the difference between the atom speeds. For atoms with low energy, the excitation that leads to the photon emission occurs only due to their collisions with thermal electrons, while for atoms with high energy, a sufficient deposition into their excitation is given by their collisions with the plasma ions. This is why the ratio between the intensities of the lines of different beam components depends on the plasma electron temperature, and thus, it can be used to measure this temperature. At the beam energy of 24 keV, the proposed method can be used to measure the electron temperature in the range of up to 40 eV, which is of interest for the current experiments conducted at the GOL-NB facility. Note that measurement of the electron temperature higher than 20 eV requires that the ratio between the spectral line intensities be measured with an accuracy of the order of one percent, and that the attenuation of the neutral beam that passes through the plasma be measured with the same accuracy. The proposed method can be used at other fusion facilities that use fast hydrogen atom injection to measure the temperature of the edge plasma.

AB - Abstract: A new method is proposed for measuring the electron plasma temperature at the GOL-NB facility. The method is based on measuring the ratio between the intensities of the spectral lines emitted by the fast atoms injected into the plasma. The beams of fast hydrogen atoms used for heating the plasma at the GOL-NB facility contain not only atoms with a full energy (E) but also atoms with fractional energies (E/2, E/3, E/18) that appear as a result of the dissociation of the H, H, and H2O+ molecular ions. The spectral lines of the beam components with these energies (and, in particular, the hydrogen Hα line) can be resolved due to the Doppler shift caused by the difference between the atom speeds. For atoms with low energy, the excitation that leads to the photon emission occurs only due to their collisions with thermal electrons, while for atoms with high energy, a sufficient deposition into their excitation is given by their collisions with the plasma ions. This is why the ratio between the intensities of the lines of different beam components depends on the plasma electron temperature, and thus, it can be used to measure this temperature. At the beam energy of 24 keV, the proposed method can be used to measure the electron temperature in the range of up to 40 eV, which is of interest for the current experiments conducted at the GOL-NB facility. Note that measurement of the electron temperature higher than 20 eV requires that the ratio between the spectral line intensities be measured with an accuracy of the order of one percent, and that the attenuation of the neutral beam that passes through the plasma be measured with the same accuracy. The proposed method can be used at other fusion facilities that use fast hydrogen atom injection to measure the temperature of the edge plasma.

KW - atomic beams

KW - plasma diagnostic

KW - plasma spectroscopy

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85208104948&origin=inward&txGid=68cf3396ffd623fc8b6421335a8d5312

UR - https://www.mendeley.com/catalogue/ce9cc3eb-4bbb-3451-979b-4a57b9208e05/

U2 - 10.1134/S1063780X24600907

DO - 10.1134/S1063780X24600907

M3 - Article

VL - 50

SP - 1158

EP - 1164

JO - Plasma Physics Reports

JF - Plasma Physics Reports

SN - 1063-780X

IS - 9

ER -

ID: 60835888