| 1. | Experimental studies of the argon - puff z - pinch implosion process
箍缩内爆动力学过程实验研究 |
| 2. | Process of radiation magnetohydrodynamics in al wire - array z - pinch
箍缩的辐射磁流体动力学过程 |
| 3. | Physical research of fast z - pinch implosion for the w multi - wire arrays
箍缩钨丝阵内爆物理研究 |
| 4. | Linear theta pinch hybrid reactor
直线角向箍缩混合式反应堆 |
| 5. | Z - pinch plasma z
箍缩等离子体 |
| 6. | Three phases electron beam flow model for low - impedance interse - current pinched electron beam diode
低阻抗强流箍缩电子束二极管的3阶段电子束流模型 |
| 7. | Mfmzi was conducted on a small gas - puff z - pinch device , and three interferograms with an interpulse delay of 13 ns were obtained in one shot of z - pinch
该干涉仪在小型喷气式z箍缩装置上进行了实验,在一次等离子体内爆过程中拍摄到时间间隔为13纳秒的三幅干涉图。 |
| 8. | According to the fringe shift of the interferograms , electron density and implosion velocity can be obtained . in the early period of plasma imploding , the averaged electron density is ,
在箍缩早期平均电子密度为,运动速度为;聚焦附近,等离子体的平均电子密度约为,运动速度,最小箍缩半径0 . 49mm ;崩溃阶段,等离子体的崩溃速度为。 |
| 9. | Then these separated interferograms can be recorded by ccd camera the experiments with the multi - frame interferometer was carried out on a small gas - puff z - pinch device with 23 kv working voltage and 210 ka peak current and about 2 risetime , and good results were obtained
该套干涉仪在小型喷气式z箍缩装置上进行了实验, z装置的工作电压23kv 、峰值电流210ka 、电流上升时间约2 。根据干涉图条纹的移动数,可以计算出等离子体的电子密度和运动速度。 |
