L. A. Varshavchik scite author profile

L. A. Varshavchik

2Publications

3Citation Statements Received

65Citation Statements Given

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Three-dimensional simulation of neutral transport in gases and weakly ionized plasmas

Varshavchik¹,

Babinov²,

Zatylkin³

et al. 2020

Plasma Phys. Control. Fusion

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Transport and redeposition of plasma-facing materials in future fusion devices may have a critical influence on performance of in-vessel components. Evaluation of the impurity migration in diagnostic ports is important to predict degradation of in-vessel optics during the main plasma discharges as well as for development of in-situ cleaning maintenance. The Monte-Carlo code KITe was developed for modeling transport of neutral particles in weakly ionized plasma. The code employs advanced neutral particle collision model. The first KITe simulation and experimental validation of sputtered atom transport demonstrate performance of the proposed approach.

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Three-dimensional modeling of sputtered materials transport in diagnostic ducts of fusion devices

Babinov¹,

Razdobarin²,

Bukreev³

et al. 2022

Nucl. Fusion

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Migration of plasma erosion products in plasma facilities is studied experimentally and numerically within the framework of modelling transport of plasma-facing materials in the diagnostic ducts of fusion devices. Material transport simulation is discussed for two cases of low and high background neutral gas pressures. Monte Carlo software KITe was used to simulate transport at a neutral gas background pressure 0.1 – 0.5 Pa – typical during steady-state tokamak operation and during pressure pulses caused by edge localized modes (ELMs). The simulation approach was implemented to describe experiments at the MAGNUM-PSI facility. Fluid dynamic code FLUENT is used to simulate transport during pressure surges as high as 1000 Pa, which can occur in case of severe disruptions in tokamak plasma discharges, such as vertical displacement events (VDE) or accidental events. The hydrodynamic approach was verified in simulation of target sputtering in the QSPA plasma gun facility.

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L. A. Varshavchik

Three-dimensional simulation of neutral transport in gases and weakly ionized plasmas

Three-dimensional modeling of sputtered materials transport in diagnostic ducts of fusion devices

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