スロー・テータ・ピンチ・プラズマのレーザー散乱による電子温度・密度の測定
スポンサーリンク
概要
- 論文の詳細を見る
Laser scattering is a very powerfull diagnostic technique for the measurements of high temperature and high density plasmas. This method has been used in many experiments with successfull results. Here 90° scattering is observed to determine the electron temperature and density of the slow theta pinch plasma of relatively large device, which had. been used as a plasma source of BSG devices. The temperature and density are in the order of-10<SUP>16</SUP>cM<SUP>-3</SUP>and_??_10 eV, respectively, so that the plasma is isothermal (τ<SUB>ie</SUB><10<SUP>-6</SUP>sec), and then ion temperature, which ia more important for the experiment, can be estmated as well as electron temperature and density. The characteristics of theta pinch are : L=60 cm, d=10 cm, V=40 kV and E=ll kJ. The results of scattering theory are simply descrimbed for the understanding of experimental results. Observed scattered spectra were ranged from α=0.3 to 1.3 and electron temperature, from about 8 to 4 eV, according to experimental conditions. The time dependence of electron temperature and density was obtained in case of initial gas pressure.of 35 mtorr.
- 社団法人 プラズマ・核融合学会の論文
著者
関連論文
- 3a-Q-8 直線スクリューピンチプラズマの振舞
- 6a-D-3 BSGI-14 Bのプラズマ(レーザー診断
- 高温プラズマからのレーザ散乱における相対論効果
- マッハ・ツェンダー干渉計によるスロー・テータ・ピンチ・プラズマの測定
- スロー・テータ・ピンチへのピンチ予備電離の適用とその結果
- スロー・テータ・ピンチ・プラズマのレーザー散乱による電子温度・密度の測定