Achievement of stable negative ion production with Cs-seeded for long pulse beam operation in the prototype of Cs-seeded negative ion source for JT-60SA

Long pulse negative ion beams of 500 keV and 154 A/m2 for 118 s have been achieved for the first time, which exceeds the requirement of the JT-60SA negative ion source. In order to solve the issues of such long pulse beams, the fast cutoff system of the power supply aims to reduce the surge current...

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Bibliographic Details
Published in:Review of scientific instruments 2020-02, Vol.91 (2), p.023502-023502
Main Authors: Ichikawa, Masahiro, Kojima, Atsushi, Hiratsuka, Junichi, Yoshida, Masafumi, Umeda, Naotaka, Squilayan, G. Q., Watanabe, Kazuhiro, Tobari, Hiroyuki, Kashiwagi, Mieko
Format: Article
Language:English
Subjects:
Arc cutting
Cesium
Electrical surges
Field programmable gate arrays
Filaments
Ion beams
Ion sources
Ions
Negative ions
Power supplies
Power supply
Scientific apparatus & instruments
Wall temperature
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Summary:Long pulse negative ion beams of 500 keV and 154 A/m2 for 118 s have been achieved for the first time, which exceeds the requirement of the JT-60SA negative ion source. In order to solve the issues of such long pulse beams, the fast cutoff system of the power supply aims to reduce the surge current and to extend the lifetime of filaments and the suppression method of excess cesium (Cs) accumulation on the plasma grid (PG) to achieve stable negative ion production. By developing the fast cutoff system using a field programmable gate array unit for the arc power supply, the cutoff time has been reduced to 1/10 that of the original system and the lifetime of the filament was extended by three times. In order to achieve stable negative ion production, incoming Cs on the PG surface has been reduced by keeping the chamber wall temperature below 40 °C. As a result, a stable beam current drift of
ISSN:0034-6748
1089-7623
DOI:10.1063/1.5130436