Title :
Time-resolved K-shell line spectra measurement of the imploding aluminum wire arrary
Author :
Qingguo Yang ; Shaotong Zhou ; Guanghua Chen ; Xianbin Huang ; Hongchun Cai ; Zeren Li
Author_Institution :
Inst. of Fluid Phys., CAEP, Mianyang, China
Abstract :
A Johann-type crystal spectrometer combined with the x-ray PIN diodes has been developed for measuring the time-resolved K-shell line emissions of the imploding Al wire array. The PIN diodes are positioned on the Rowland circle to aim at the spectral lines with the matching Bragg angles. Four typical channels respectively keyed to the Al ion hydrogen-like (Hα, 0.7171 nm and Hβ, 0.6052 nm) and helium-like (Heα, 0.7757 nm and Heβ, 0.6634 nm) resonance lines are designed. The signal ratio of the Hα line to the Heα line is used to restore the time-dependent electron temperature. The designing principle of the spectrometer is described and the preliminary experimental results on the "Yang" accelerator are presented and analyzed.
Keywords :
Z pinch; aluminium; exploding wires; plasma diagnostics; plasma temperature; Al; Bragg angles; Johann-type crystal spectrometer; Rowland circle; X-ray PIN diodes; Yang accelerator; helium-like resonance line; hydrogen-like resonance line; imploding aluminum wire array; signal ratio; time-dependent electron temperature; time-resolved K-shell line emissions; time-resolved K-shell line spectra measurement; wire array Z-pinch plasmas; Bandwidth; Crystals; Detectors; PIN photodiodes; Plasma temperature; Temperature measurement;
Conference_Titel :
Pulsed Power Conference (PPC), 2013 19th IEEE
Conference_Location :
San Francisco, CA
DOI :
10.1109/PPC.2013.6627502
