Compact hard x-ray flash radiography device based on wire-shorted low-impedance rod pinch diode.
Rev Sci Instrum
; 95(7)2024 Jul 01.
Article
em En
| MEDLINE
| ID: mdl-38984881
ABSTRACT
A rod pinch diode (RPD) is a feasible load configuration to generate a high-brightness, small-size hard x-ray radiation source. In this paper, the radiography performance of a wire-shorted low-impedance RPD on a compactly designed table-top driver (WRPD-1) is demonstrated for the first time. The driver consists of four high-power discharge branches connected in parallel, with each branch consisting of two metal-film capacitors and one multigap field-distortion switch in series. The four branches are triggered synchronously to generate a fast-rising current pulse the inductance of the load section at the short circuit is â¼10 nH, and the short-circuit current amplitude is â¼325 kA at ±90 kV charging voltage, with a 10%-90% rise time of 110 ns. With a low-impedance RPD shorted by an 18-µm-diameter aluminum wire, a quasi-spherical x-ray focal spot with diameter <0.6 mm (width of the half-maximum grayscale) and a pulse duration of â¼25 ns (half-width of the radiation pulse) is obtained at ±70 kV charging voltage, and the imaging resolution excels 10 lp/mm under 1.56× magnification. According to the transmission-absorption x-ray spectrum estimation, the average emitted photon energy is â¼30 keV with a distinct peak in the 10-15 keV range that corresponds to the L-lines of tungsten, and the total energy of photons >10 keV reaches â¼1.16 J. The present results show that the device can serve well for the flash radiography diagnosis and potentially as an efficient light source for dynamic x-ray diffraction.
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01-internacional
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MEDLINE
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En
Ano de publicação:
2024
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Article