Investigation of heat release in the targets during irradiation by ion   beams

O.D. Dalkarov; M.A. Negodaev; A.S. Rusetskii

arXiv:1508.02743·physics.ins-det·August 13, 2015·1 cites

Investigation of heat release in the targets during irradiation by ion beams

O.D. Dalkarov, M.A. Negodaev, A.S. Rusetskii

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TL;DR

This study investigates heat release in targets during ion beam irradiation, revealing that heat emission varies with ion type, deuterium concentration, and beam current, with higher heat observed for D+ beams on Ti/TiO2:Dx targets.

Contribution

It provides new insights into heat emission behavior during ion irradiation, highlighting the dependence on ion type, deuterium concentration, and beam current density.

Findings

01

Heat emission is significantly higher with D+ beams on Ti/TiO2:Dx targets.

02

Heat emission depends on deuterium concentration in the target.

03

Heat emission varies with the current density of the deuteron beam.

Abstract

The DD-reaction is investigated and the heat emission off the targets during their irradiation with ion beams is studied at the HELIS ion accelerator at LPI. The heat emission is observed to be significantly higher in the case of irradiation of the Ti/TiO2:Dx-targets by a D+ beam, as compared to the H+ and Ne+ beams. Furthermore, it depends on the concentration of deuterium in the target and current density of the deuteron beam.

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Taxonomy

TopicsFusion materials and technologies · Nuclear Physics and Applications · Ion-surface interactions and analysis