Your search keyword '"Kashiwagi, M."' showing total 2 results

1. Compensation of beamlet repulsion in a large negative ion source with a multi aperture accelerator.

Author

Kashiwagi, M., Inoue, T., Grisham, L. R., Hanada, M., Kamada, M., Taniguchi, M., Umeda, N., and Watanabe, K.

Subjects

*ELECTRON accelerators, *PARTICLES (Nuclear physics), *CATHODE rays, *ION bombardment, *MAGNETIC fields, *ION sources, *PHYSICS research

Abstract

Excess heat loads to accelerator grids limit extension of pulse length in operation of the large negative ion sources with multi aperture accelerator. Part of the heat loads is caused by interception of deflected beamlets due to their space charge repulsion. In this paper, a beamlet steering technique using aperture offset was examined for compensation of the beamlet deflections utilizing a three dimensional beam analysis simulating the D- negative ion source of JT-60 U. The beamlet deflection was analyzed in detail using fifty beamlets, which were extracted from apertures arranged in a lattice pattern of 10×5. The simulation showed successful compensation of the beamlet deflection by aperture offsets defined according to the thin lens theory. Even if the beam energy was changed, the necessary aperture offset would not be changed maintaining the perveance and a ratio of extraction and acceleration voltage. In JT-60 U, it was shown that the aperture offset of less than 1.0 mm would be enough to compensate the repulsion of all beamlets. When the magnetic field was applied for suppression of co-extracted electrons, necessary aperture offset was estimated to be ±0.5 mm for 500 keV D- ion beam in JT-60 U, in addition to the offset for the space charge repulsion. This result showed good agreements with the previous experimental results and design study of the JT-60 U N-NBI. [ABSTRACT FROM AUTHOR]

Published

2009

2. Progress in development and design of the neutral beam injector for JT-60SA

Author

Hanada, M., Kojima, A., Tanaka, Y., Inoue, T., Watanabe, K., Taniguchi, M., Kashiwagi, M., Tobari, H., Umeda, N., Akino, N., Kazawa, M., Oasa, K., Komata, M., Usui, K., Mogaki, K., Sasaki, S., Kikuchi, K., Nemoto, S., Oshima, K., and Endo, Y.

Subjects

*EXPERIMENTAL design, *NEUTRAL beams, *INJECTORS, *MAGNETIC fields, *MAGNETIC shielding, *ION bombardment, *PARTICLE acceleration

Abstract

Abstract: Neutral beam (NB) injectors for JT-60 Super Advanced (JT-60SA) have been designed and developed. Twelve positive-ion-based and one negative-ion-based NB injectors are allocated to inject 30MW D0 beams in total for 100s. Each of the positive-ion-based NB injector is designed to inject 1.7MW for 100s at 85keV. A part of the power supplies and magnetic shield utilized on JT-60U are upgraded and reused on JT-60SA. To realize the negative-ion-based NB injector for JT-60SA where the injection of 500keV, 10MW D0 beams for 100s is required, R&Ds of the negative ion source have been carried out. High-energy negative ion beams of 490–500keV have been successfully produced at a beam current of 1–2.8A through 20% of the total ion extraction area, by improving voltage holding capability of the ion source. This is the first demonstration of a high-current negative ion acceleration of >1A to 500keV. The design of the power supplies and the beamline is also in progress. The procurement of the acceleration power supply starts in 2010. [Copyright &y& Elsevier]

Published

2011