M.M. Kochergin scite author profile

M.M. Kochergin

4Publications

37Citation Statements Received

64Citation Statements Given

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Affiliations

Ioffe Institute, Physico-Technical Institute, ITER

Publications

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A study of core Thomson scattering measurements in ITER using a multi-laser approach

et al. 2015

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i) The problem: to measure T e as high as 40 keV using Thomson Scattering in the reactor core both for Maxwellian and non-Maxwellian case of electron velocity distribution function especially in the case of unknown system spectral responsivity. (ii) The suggested solutions:to use IR probing laser 1320 nm additionally to convenient NIR laser 1064 nm to improve measurement accuracy for T e~ 40keV;to use specific algorithm for TS data processing in case of non-Maxwellian eVDF; to use multi-laser approach, that suggests plasma probing with 3 lasers -946 nm/1064 nm/1320 nm simultaneously in the case of unknown system spectral sensitivity.(iii) Next steps -test multi-laser approach and designed data procession technique in real experiment on existing fusion device.

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Hardware solutions for ITER divertor Thomson scattering

Mukhin

Andrew

Babinov

et al. 2017

Fusion Engineering and Design

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Research on mirror cleaning in inductively and capacitively driven radio-frequency discharges

Kochergin

Mukhin

Podushnikova

et al. 2006

Plasma Devices and Operations

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Bench tests are used to compare cleaning performance of inductively and capacitively driven radio-frequency (RF) discharges as a potential tool for in-situ maintenance of in-vessel diagnostic mirrors in fusion devices. The effect of erosion of hydrogenated carbon coating is studied in different processing conditions. Stainless steel (SS) mirrors have been exposed to CH 4 −Ar and H 2 −Ar plasmas in an RF discharge at a pressure of 10 −2 Torr with an input power of 0.5 kW at 13.6 MHz. The samples, which exhibit a slow rate of chemical erosion, become essentially erosive in both inductively and capacitively driven RF discharges. The cleaning ability of a capacitively driven RF discharge is studied in dedicated experiments with SS samples retrieved from the tokamaks T-10 and Globus-M after long-term exposure to the working and wall conditioning discharges.

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In situ monitoring hydrogen isotope retention in ITER first wall

et al. 2016

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Tritium retention inside the vacuum vessel is a potentially serious constraint in the operation of large-scale fusion machines like ITER. An in situ diagnostics for first wall H/D/T retention by laser induced desorption spectroscopy (LIDS) is proposed for use between plasma discharges. The technique is based on local baking of the first wall by laser irradiation and subsequent analysis of the in-vessel gas by optical emission spectroscopy of plasma radiation. The local heating implementation, kinetics of H/D/T thermal extraction and the accuracy of optical emission spectroscopy measurements are analysed. To resolve the H/D/T lines spectroscopically, their thermal broadening should be minimized to prevent overlapping of the line shapes. A comparative performance analysis of several types of plasma sources with relatively cold ions is made including the following types of discharges: Penning, RF multipactor, laser torch and ECR. All these radiation sources require rather low power and could be used for remote in situ measurements of relative densities of the thermally extracted hydrogen isotopes.

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M.M. Kochergin

A study of core Thomson scattering measurements in ITER using a multi-laser approach

Hardware solutions for ITER divertor Thomson scattering

Research on mirror cleaning in inductively and capacitively driven radio-frequency discharges

In situ monitoring hydrogen isotope retention in ITER first wall

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