宇宙科学研究所・レールガンにおける飛翔体速度計測について
スポンサーリンク
概要
- 論文の詳細を見る
The railgun system was set up in the Institute of Space and Astronautical Science (ISAS) and about a hundred shots were carried out preliminarily in 1986. The following four methods of projectile velocity measurement were tried in the experiments. (1) laser fence, (2) magnetoflyer, (3) wire cut, (4) thin plate The third method appeared to be the simplest and most reliable one, while the laser fence was affected severely by the dust and plasma which were blown off with the projectile. The second and fourth ones suffered the electromagnetic noise. The wire cut would be the best way just to measure the velocity itself, but it affects the projectile attitude and its front surface. For the railgun application, the improvement of the laser fence method or ones with X-ray, which have no effect on the projectile, would be neccesary.
- 宇宙航空研究開発機構の論文
著者
関連論文
- 惑星科学実験用レールガンの開発
- 惑星科学実験用レールガンの開発
- レールガンによる超高速度衝突実験(「衝突実験」)
- レールガンにおけるarmatureの研究I
- 2a-R-13 定常プラズマ流と双極子磁場との相互作用(II)
- 19a-G-5 定常プラズマ流と双極子磁場との相互作用
- 巻頭言
- 月の異常現象(月の起源と進化)
- 月面なぞの発光
- 定常プラズマ流と双極子磁場との相互作用
- 13a-F-7 定常プラズマ流と双極子磁場との相互作用(III)
- 宇宙科学研究所・レールガンにおける飛翔体速度計測について