Abstract
The paper presents the results of spectroscopic measurements of plasma discharges at the KTM tokamak. The measurements were carried out during the June 2021 campaign, which plasma discharges were obtained with a plasma current from 120 kA to 150 kA and a duration of ~250 ms.In connection with the design changes inside the vacuum chamber of the tokamak, special attention is paid to the study of the elemental composition of the plasma and the analysis of impurities and the ways of their entry is carried out. Impurities in plasma directly affect radiation losses. Optical spectroscopy (OS) is one of the main methods for studying the penetration of impurities into plasma.An Avaspec-ULS2048CL-EVO-RS-BB spectrometer was used to determine the emission spectrum of the KTM tokamak plasma. The time evolution of the hydrogen lines was measured using the diagnostics of a Hα-Dα monitor equipped with narrow-band interference filters (FWHM 1 nm).Based on the measured emission spectrum, it was found that in the hydrogen plasma of the KTM tokamak, in addition to the presence of a working gas, there were also impurities of carbon, oxygen, nitrogen and argon (C, O, N, Ar) in various ionization states.
Highlights
RESULTSThe paper presents the results of spectroscopic measurements of plasma discharges at the KTM tokamak
In November 2019, the final stage of the physical start-up was implemented at the KTM tokamak [1], which demonstrated the operability of the facility and its main technological systems
In order to increase the field of observation, the system of collecting light diagnostics of the survey spectrometer and the monitor Hα-Dα are installed on the track branch of the 10th sector of the vacuum chamber (VC) of tokamak KTM
Summary
The paper presents the results of spectroscopic measurements of plasma discharges at the KTM tokamak. In connection with the design changes inside the vacuum chamber of the tokamak, special attention is paid to the study of the elemental composition of the plasma and the analysis of impurities and the ways of their entry is carried out. Optical spectroscopy (OS) is one of the main methods for studying the penetration of impurities into plasma. An Avaspec-ULS2048CL-EVO-RS-BB spectrometer was used to determine the emission spectrum of the KTM tokamak plasma. Based on the measured emission spectrum, it was found that in the hydrogen plasma of the KTM tokamak, in addition to the presence of a working gas, there were impurities of carbon, oxygen, nitrogen and argon (C, O, N, Ar) in various ionization states.
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