Optimization of the collective Thomson scattering diagnostic for the GDT open magnetic trap

The collective Thomson scattering of high-power millimeter-wave radiation on plasma density fluctuations (CTS) is widely used for diagnosing the velocity distribution function of energetic ions in fusion plasma. In this paper, we discuss a non-standard scheme of CTS measurements, which exploits stro...

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Veröffentlicht in:	Review of scientific instruments 2023-12, Vol.94 (12)
Hauptverfasser:	Shalashov, A. G., Gospodchikov, E. D., Khusainov, T. A., Solomakhin, A. L.
Format:	Artikel
Sprache:	eng
Schlagworte:	Dense plasmas Diagnostic systems Distribution functions Electrons Gaussian beams (optics) Millimeter waves Numerical models Plasma Plasma density Spatial resolution Thomson scattering Upgrading Velocity distribution
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creator	Shalashov, A. G. Gospodchikov, E. D. Khusainov, T. A. Solomakhin, A. L.
description	The collective Thomson scattering of high-power millimeter-wave radiation on plasma density fluctuations (CTS) is widely used for diagnosing the velocity distribution function of energetic ions in fusion plasma. In this paper, we discuss a non-standard scheme of CTS measurements, which exploits strong refraction of probing and scattered microwave beams when reflecting from the cut-off layer in dense plasma. The scheme may be realized with the existing CTS diagnostic system at the Gas-Dynamic Trap (GDT) facility, a large open magnetic trap operating at Budker Institute (Novosibirsk, Russia). This requires a minor upgrade of the available hardware and essentially increases the range of plasma densities allowed for CTS measurements, as well as its sensitivity and spatial resolution. A detailed study of CTS efficiency for different geometries and plasma conditions at GDT is performed by means of an advanced numerical model that allows for an accurate description of non-Gaussian beam scattering in inhomogeneous plasma. To perform this task, we develop a quasi-optical theory of scattering, which itself may be of general interest.
doi_str_mv	10.1063/5.0175160
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A detailed study of CTS efficiency for different geometries and plasma conditions at GDT is performed by means of an advanced numerical model that allows for an accurate description of non-Gaussian beam scattering in inhomogeneous plasma. 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source	AIP Journals Complete; Alma/SFX Local Collection
subjects	Dense plasmas Diagnostic systems Distribution functions Electrons Gaussian beams (optics) Millimeter waves Numerical models Plasma Plasma density Spatial resolution Thomson scattering Upgrading Velocity distribution
title	Optimization of the collective Thomson scattering diagnostic for the GDT open magnetic trap
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