Effect of argon additive on H− density and temperature in volume negative ion source

Ivanov, A. A.; Bacal, M.; Rouillé, C.; Nishiura, M.; Sasao, M.

doi:10.1063/1.1695618

Cited by 6 publications

(6 citation statements)

References 6 publications

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“…[112][113][114][115][116][117] This concept was earlier predicted by Hiskes et al 118 Several research efforts were made to study the effect on the H À ion density by mixing argon and other inert gases to hydrogen. [119][120][121][122] Work on the performance improvement of large RF driven hydrogen negative ion sources for fusion integrated the idea of mixing argon or other inert gases to hydrogen and was initiated at IPP and described in 1999 by Speth et al 123 In this source, the RF antenna was located near the back plate. It was found that the negative ion yield increased with pressure but saturated with rf power.…”

Section: Volume Negative Ion Sources For Fusion Applicationsmentioning

confidence: 99%

Negative hydrogen ion production mechanisms

Bacal

Wada

2015

Applied Physics Reviews

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240

173

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International audienceNegative hydrogen/deuterium ions can be formed by processes occurring in the plasma volume and on surfaces facing the plasma. The principal mechanisms leading to the formation of these negative ions are dissociative electron attachment to ro-vibrationally excited hydrogen/deuterium molecules when the reaction takes place in the plasma volume, and the direct electron transfer from the low work function metal surface to the hydrogen/deuterium atoms when formation occurs on the surface. The existing theoretical models and reported experimental results on these two mechanisms are summarized. Performance of the negative hydrogen/deuterium ion sources that emerged from studies of these mechanisms is reviewed. Contemporary negative ion sources do not have negative ion production electrodes of original surface type sources but are operated with caesium with their structures nearly identical to volume production type sources. Reasons for enhanced negative ion current due to caesium addition to these sources are discussed. (31 pages, 265 refs

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Section: Volume Negative Ion Sources For Fusion Applicationsmentioning

confidence: 99%

Negative hydrogen ion production mechanisms

Bacal

Wada

2015

Applied Physics Reviews

Self Cite

240

173

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“…To the best of our knowledge, the most indicative reports on the application of this process are the Refs. [4][5][6][7][8][9], concerning filament-driven sources. More recently, Kado et al [10] proposed a novel and simple method to measure thermal and flow velocities of negative ions by making use of the photodetachment technique in a steady-state linear divertor/edge plasma simulator MAP (material and plasma)-II.…”

Section: Introductionmentioning

confidence: 99%

Experimental study on dynamic effects of H^- and D^- negative ions in an ECR-plasma source

Mitrou

Svarnas

Béchu

2022

J. Phys.: Conf. Ser.

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The electrostatic probe-based photo-detachment technique with one or two laser beams can provide insight on the negative ion absolute densities and dynamics, respectively, in electronegative plasmas. In this work, this diagnostic is installed in the ECR-driven (2.45 GHz) negative ion source “Prometheus I” and details of the setup design along with main underlying physics are discussed. Potential origins of signal distortions and thus erroneous employment of this technique are demonstrated. Based on these observations, H- and D- negative ion densities and temperatures are measured in a reliable manner. The experiments are carried out for variable microwave power (2.45 GHz), at 1.33 Pa, unveiling two distinct kinetic equilibriums of the negative ions, in both gases, and an isotope effect.

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“…Systems with higher frequencies have also been used. Electron cyclotron resonance ͑ECR͒ heating 10 with modified standard sources 11,12 and seven small ECR systems 13 in a multicusp source were tested. Microwave sources were used and even tandem combinations of a microwave source with a multicusp source 14 were tried.…”

Section: The Discharge Chambermentioning

confidence: 99%

New developments in multicusp H− ion sources for high energy accelerators (invited)

Peters

2008

Review of Scientific Instruments

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A functional description of multicusp H(-) sources is given, focusing on the fundamental elements of this source type: the discharge chamber, the extraction plasma region, and electron dumping. Design choices for these elements will be presented and compared. The options of rf and filament heating of the discharge chamber will be presented. Also, the construction opportunities in the extraction plasma region using filter field arrangements and collars are described. Three methods to dump the electrons at three different regions are discussed. In a brief history, the development of multicusp sources are described. The status of the new sources under development at DESY, SNS, and in Japan will be given in a table for all types of operational H(-) sources. Finally, the limits to the H(-) current and emittance as well as the Cs question will be discussed.

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Effect of argon additive on H− density and temperature in volume negative ion source

Cited by 6 publications

References 6 publications

Negative hydrogen ion production mechanisms

Negative hydrogen ion production mechanisms

Experimental study on dynamic effects of H^- and D^- negative ions in an ECR-plasma source

New developments in multicusp H− ion sources for high energy accelerators (invited)

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Effect of argon additive on H− density and temperature in volume negative ion source

Cited by 6 publications

References 6 publications

Negative hydrogen ion production mechanisms

Negative hydrogen ion production mechanisms

Experimental study on dynamic effects of H- and D- negative ions in an ECR-plasma source

New developments in multicusp H− ion sources for high energy accelerators (invited)

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Product

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Experimental study on dynamic effects of H^- and D^- negative ions in an ECR-plasma source