A. N. Bandura scite author profile

The paper presents the investigations of high power plasma interaction with material surfaces under conditions simulating the ITER disruptions and type I ELMs. Different materials were exposed to plasma with repetitive pulses of 250 µs duration, the ion energy of up to 0.6 keV, and the heat loads varying in the 0.5-25 MJ m −2 range. The plasma energy transfer to the material surface versus impact load has been analysed. The fraction of plasma energy that is absorbed by the target surface is rapidly decreased with the achievement of the evaporation onset for exposed targets. The distributions of evaporated material in front of the target surface and the thickness of the shielding layer are found to be strongly dependent on the target atomic mass. The surface analysis of tungsten targets exposed to quasi-steady-state plasma accelerators plasma streams is presented together with measurements of the melting onset load and evaporation threshold, and also of erosion patterns with increasing heat load and the number of plasma pulses.

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Experimental study of plasma energy transfer and material erosion under ELM-like heat loads

Garkusha

Makhlaj

Chebotarev

et al. 2009

Journal of Nuclear Materials

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Tungsten erosion under plasma heat loads typical for ITER type I ELMs and disruptions

Garkusha

Bandura

Byrka

et al. 2005

Journal of Nuclear Materials

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Influence of plasma pressure gradient on melt layer macroscopic erosion of metal targets in disruption simulation experiments

Tereshin

Garkusha

Bandura

et al. 2003

Journal of Nuclear Materials

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Damage to preheated tungsten targets after multiple plasma impacts simulating ITER ELMs

Garkusha

Bandura

Byrka

et al. 2009

Journal of Nuclear Materials

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A. N. Bandura

Application of powerful quasi-steady-state plasma accelerators for simulation of ITER transient heat loads on divertor surfaces

Experimental study of plasma energy transfer and material erosion under ELM-like heat loads

Tungsten erosion under plasma heat loads typical for ITER type I ELMs and disruptions

Influence of plasma pressure gradient on melt layer macroscopic erosion of metal targets in disruption simulation experiments

Damage to preheated tungsten targets after multiple plasma impacts simulating ITER ELMs

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