Experimental investigation of radiation charactristics of Ti wire X-pinch X-ray source on Yang accelerator

Zhou, Su-Qin; Li, Jun; Huang, Xianbin; Hongchun, Cai; Zhang, Siqun; Li, Jing; Shuchao, 段书超 Duan; Zhou, Rongguo

doi:10.7498/aps.61.165202

Acta Phys. Sin.

2012

DOI: 10.7498/aps.61.165202

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Experimental investigation of radiation charactristics of Ti wire X-pinch X-ray source on Yang accelerator

Su-Qin Zhou¹,

Jun Li²,

Xianbin Huang³

et al.

Abstract: The X-ray radiation properties of titanium wire X-pinch are investigated on the Yang accelerator at 500800 kA peak current with a rise time of about 80 ns. The radiation power, spectrum and source size of the X-pinch X-ray source are measured and analyzed using X-ray diodes, a transmission grating spectrometer, a crystal spectrometer and a slit camera. The hot dense spot smaller than 15 m emits 1 J of X-ray with an FWHM of 200 ps and a peak power of 1.5 GW distributed in the range of 14 keV. A method to effici… Show more

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Cited by 3 publications

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A scintillator-based soft X-ray streak camera system for Z-pinch experiments on the Primary Test Stand

Zhou

Xie

Huang

et al. 2019

Review of Scientific Instruments

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A soft x-ray streak camera system based on the conversion of fast scintillator has been developed to diagnose 10-MA Z-pinch implosions on the Primary Test Stand facility. The streak camera system is used to measure the continuous time history of the 0.2–10 keV x-ray emission from pinch plasmas and proved to be free from the intense electromagnetic environment effectively during the discharge of the Primary Test Stand. The spatial resolution of the streak camera system is estimated to be less than 120 μm, and its temporal resolution has been calibrated to be about 1 ns. X-ray streak images of aluminum wire-array plasmas have been obtained successfully in experiments, and the nonuniformity of the x-ray emission along the axial direction has been observed.

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A scintillator-based soft X-ray streak camera system for Z-pinch experiments on the Primary Test Stand

Zhou

Xie

Huang

et al. 2019

Review of Scientific Instruments

View full text Add to dashboard Cite

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Experimental investigations of tungsten X-pinches using the QiangGuang-1 facility

Wu¹,

Wang²,

Li³

et al. 2014

Acta Phys. Sin.

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In order to obtain a single brighter point X-ray source, tungsten X-pinch experiments were carried out on the QiangGuang-1 facility. The equilibrium radius of the bright spots was estimated based on the energy balance equation. X-pinch load test covered wire diameters from 25 to 100 μm, wire number from 2 to 48, and the load linear mass from 0.18 to 6.9 mg/cm. The load peak current was 1.0–1.4 MA and the rise time for 10%–90% was 60–70 ns. From the experiments, the matched load for “QiangGuang-1” facility was the 30 or 32 wire-25 μm X pinch with the load linear mass of 2.8–3.0 mg/cm, which can produce a single nanosecond X-ray pulse around current peak with a certain probability. A typical keV X-ray radiation had a pulse width of 1 ns, the radiation power from the bright spot being 35 GW, the radiation yield being 40 J, and the spot size being about 30 μm. Multiple bright spots and multiple X-ray bursts at the crossing were usually observed in the experiments. Multiple X-ray bursts were probably caused by secondary pinches or partial pinches, and multiple bright spots were caused by long wavelength perturbations or localized short wavelength perturbations along the “min Z-pinch” axis. Compared with hundreds of kilo-ampere devices, mega-ampere facilities produced greater X-ray radiation, but further improvements are needed to produce a single X-ray burst steadily.

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Full circuit model for coupling pulsed power driver with Z-pinch load

Chuang¹,

Ding²,

Sun³

et al. 2014

Acta Phys. Sin.

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In order to study the transportation and conversion of the electromagnetic energy from the pulsed power driver to Z-pinch load, a circuit model for the driver is analyzed, and coupled with magneto-hydrodynamics model for the load plasma. Our simulation results are compared with those obtained from circuit software and experimental results based on the “Qiangguang-I” facility. The simulated voltage and current waveform coincide well with the experimental results. Results show that the pulse width decreases and the peak increases as the pulse transmits from the storage capacitors to the pulse transmission line. When the storage capacitors are initially charged at 35 kV, the peak of electric powers at the transfer capacitor, the pulse forming line and the pulse output line are 0.23, 0.80 and 1.46 TW, respectively, and their rise-times (10%-90%) are 550, 160 and 45 ns, respectively. The load current is 1.5 MA and the X-ray radiation power is 0.58 TW.

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Experimental investigation of radiation charactristics of Ti wire X-pinch X-ray source on Yang accelerator

Cited by 3 publications

References 12 publications

A scintillator-based soft X-ray streak camera system for Z-pinch experiments on the Primary Test Stand

A scintillator-based soft X-ray streak camera system for Z-pinch experiments on the Primary Test Stand

Experimental investigations of tungsten X-pinches using the QiangGuang-1 facility

Full circuit model for coupling pulsed power driver with Z-pinch load

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