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Vacuum
Volume 47, Issues 6-8 , June-August 1996, Pages 1005-1008
Proceedings of the 13th International Vacuum Congress and the 9th International Conference on Solid Surfaces

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doi:10.1016/0042-207X(96)00112-1    How to cite or link using doi (opens new window) Cite or link using doi  
Copyright © 1996 Published by Elsevier Science Ltd.

Railgunnext term pellet injection system using a laser-induced plasma armature

M OnozukaCorresponding Author Contact Information, Y Oda and K Azuma

S Kasai and K Hasegawa

Mitsubishi Heavy Industries Ltd, Advanced Technology Development Department 3-3-1, Minatomirai, Nishi-ku, Yokohama 220-84, Japan
Japan Atomic Energy Research Institute, Toukai-mura, Naka-gun 319-11, Japan

Available online 8 February 1999.


Abstract

An electromagnetic previous termrailgunnext term pellet injection system that utilizes a laser-induced plasma armature formation has been developed for fusion experimental devices. Using the laser-induced plasma formation technique, the required breakdown voltage was reduced by one-tenth compared with that for the spark-discharged plasma. A small amount of hydrogen gas increased the breakdown voltage of helium gas. This effect is considered to be one of the reasons for lowering the energy conversion coefficient for hydrogen pellet acceleration. To compensate for the low pellet acceleration efficiency, a previous termrailgunnext term with ceramic insulators and an augmented rail structure has been tested. The energy conversion coefficient using the augment previous termrailgunnext term was further increased from that using a single-rail structure with the plastic insulators. The average acceleration rate was almost doubled. The highest hydrogen pellet previous termvelocitynext term was about 2.3 km s-1.

Author Keywords: Pellet injector; pellet acceleration; fusion reactor fueling; previous termrailgunnext term accelerator; laser-produced plasma


Corresponding Author Contact InformationCorresponding author. To whom correspondence should be addressed.



This Document
Abstract
Abstract + References
PDF (465 K)
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Cited By
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Vacuum
Volume 47, Issues 6-8 , June-August 1996, Pages 1005-1008
Proceedings of the 13th International Vacuum Congress and the 9th International Conference on Solid Surfaces


2 of 4 Result ListPreviousNext
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