Evaluation of Dark Current Profile for Prediction of Voltage Holding Capability on Multi-Aperture Multi-Grid Accelerator for ITER

Ryo NISHIKIORI; Atsushi KOJIMA; Masaya HANADA; Mieko KASHIWAGI; Kazuhiro WATANABE; Naotaka UMEDA; Hiroyuki TOBARI; Masafumi YOSHIDA; Masahiro ICHIKAWA; Junichi HIRATSUKA; Yasushi YAMANO; Tetsuya OKURA; NB Heating Technology Group

doi:10.1585/pfr.11.2401014

Regular Articles

Evaluation of Dark Current Profile for Prediction of Voltage Holding Capability on Multi-Aperture Multi-Grid Accelerator for ITER

Ryo NISHIKIORI, Atsushi KOJIMA, Masaya HANADA, Mieko KASHIWAGI, Kazuhiro WATANABE, Naotaka UMEDA, Hiroyuki TOBARI, Masafumi YOSHIDA, Masahiro ICHIKAWA, Junichi HIRATSUKA, Yasushi YAMANO, Tetsuya OKURA, NB Heating Technology Group

Author information

Ryo NISHIKIORI
Japan Atomic Energy Agency
Atsushi KOJIMA
Japan Atomic Energy Agency
Masaya HANADA
Japan Atomic Energy Agency
Mieko KASHIWAGI
Japan Atomic Energy Agency
Kazuhiro WATANABE
Japan Atomic Energy Agency
Naotaka UMEDA
Japan Atomic Energy Agency
Hiroyuki TOBARI
Japan Atomic Energy Agency
Masafumi YOSHIDA
Japan Atomic Energy Agency
Masahiro ICHIKAWA
Japan Atomic Energy Agency
Junichi HIRATSUKA
Japan Atomic Energy Agency
Yasushi YAMANO
Saitama University
Tetsuya OKURA
Saitama University
NB Heating Technology Group
Japan Atomic Energy Agency

Keywords: ITER, MAMuG, neutral beam injector, voltage holding capability, breakdown, field-emitted electron, field enhancement factor, effective electric field, dark current

JOURNAL FREE ACCESS

2016 Volume 11 Pages 2401014

DOI https://doi.org/10.1585/pfr.11.2401014

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Abstract

Dark current analysis to estimate the current density of the field-emitted electrons have been developed for the prediction of the yoltage holding capability of multi-aperture multi-grid accelerators used in JT-60SA and ITER neutral beam injectors. From the experimental measurement of the field-emitted electrons in multi-aperture multi-grid accelerators, βE_BD, which represent the critical current density to trigger the breakdown, were found to be constant with around 6 × 10³kV/mm regardless of the electric field profiles and the surface conditions in an accelerator with a surface area of 0.1 m². In addition, the dark current was measured in the region with the electric field above ∼60% of the electric field at the breakdown, which leads to the determination of the emission region in the analytical estimation of the dark current. Furthermore, from the measurement of βE_BDon electrodes with various surface area, βE_BDwas found to decreases with an increase of the surface area S (βE_BD= 4 × 10³S^−0.3). From these results, the dark current profile at the critical current density can be estimated from the electric field analysis, which leads to the development of the breakdown model and the prediction of the voltage holding capability on the multi-aperture multi-grid accelerators.

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