M. S. Ladygina scite author profile

M. S. Ladygina

4Publications

85Citation Statements Received

96Citation Statements Given

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Affiliations

Institute of Plasma Physics and Laser Microfusion, Kharkiv Institute of Physics and Technology, National Academy of Sciences of Ukraine

Publications

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Influence of a magnetic field on plasma energy transfer to material surfaces in edge-localized mode simulation experiments with QSPA-M

et al. 2019

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The features of plasma energy transfer to material surfaces during plasma–surface interactions (PSIs) in the presence of a strong magnetic field are investigated within the recently developed quasi-stationary plasma accelerator, QSPA-M. This novel PSI test-bed facility can reproduce edge localized mode (ELM) impacts, both in terms of heat load and particle flux to the surface, and provide plasma transportation in an external magnetic field, which mimics the divertor conditions. Investigations of energy transfer to the material surface have been performed for varied plasma heat load and external magnetic field values. Calorimetry, optical emission spectroscopy and high-speed imaging were applied for PSI characterization. For perpendicular plasma incidence, it has been shown that the transient plasma layer is formed in front of the surface by the stopped head of the plasma stream even for rather small plasma heat loads, which do not result in surface melting. The plasma density in this near-surface layer is much higher than in the impacting stream. It leads to the arisen screening effect for energy transfer to the surface. For B = 0, the thickness of the screening layer is less than 3 cm, but it increases to 15 cm when B = 0.8 T. The shielding effect due to the formation of a dense plasma layer in front of the exposed surface should be favorable for material performance, being important for decreasing the overall erosion of plasma-facing components during a large number of repetitive ELMs.

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Novel test-bed facility for PSI issues in fusion reactor conditions on the base of next generation QSPA plasma accelerator

et al. 2017

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In this report concept of new generation QSPA with external B-field up to 2 T has been discussed and novel test-bed facility, which recently constructed in Kharkov IPP NSC KIPT, has been described. It allows new level of plasma stream parameters and its wide variation in new QSPA-M device, as well as possible combination of steady state and pulsed plasma loads to the materials during the exposures. First plasma is recently obtained. Careful optimization of the operational regimes of the plasma accelerator's functional components and plasma dynamics in the magnetic system of QSPA-M device has been started approaching step by step the necessary level of plasma parameters and their effective variation. The relevant results on plasma stream characterization are presented. Energy density distributions in plasma stream have been measured with calorimetry. Spectroscopy and probe technique have been also applied for plasma parameters measurements. The obtained results demonstrate ability of QSPA-M to reproduce the ELM impacts in fusion reactor both in term of heat load and particle flux to the surface.

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Distributions of magnetic field and current in pinching plasma flows: effect of axial magnetic field

et al. 2021

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Formation of the compression zone in a plasma flow generated by a magnetoplasma compressor

et al. 2013

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M. S. Ladygina

Influence of a magnetic field on plasma energy transfer to material surfaces in edge-localized mode simulation experiments with QSPA-M

Novel test-bed facility for PSI issues in fusion reactor conditions on the base of next generation QSPA plasma accelerator

Distributions of magnetic field and current in pinching plasma flows: effect of axial magnetic field

Formation of the compression zone in a plasma flow generated by a magnetoplasma compressor

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