FEATURES OF WIRE X-PINCHES OPERATION ON THE COMPACT HIGH-CURRENT GENERATOR KING

I. N. Tilikin; Тиликин И. Н.; T. A. Shelkovenko; Шелковенко Т. А.; A. R. Mingaleev; Мингалеев А. Р.; A. A. Mingaleev; Мингалеев А. А.; A. E. Ter-Oganesyan; Тер-Оганесян А. Е.; S. A. Pikuz; Пикуз С. А.

doi:10.31857/S0044451024110166

FEATURES OF WIRE X-PINCHES OPERATION ON THE COMPACT HIGH-CURRENT GENERATOR KING

作者: Tilikin I.N.¹, Shelkovenko T.A.¹, Mingaleev A.R.¹, Mingaleev A.A.¹, Ter-Oganesyan A.E.¹, Pikuz S.A.¹
隶属关系:
1. Lebedev Physical Institute of the Russian Academy of Sciences
期: 卷 166, 编号 5 (2024)
页面: 739-747
栏目: STATISTICAL AND NONLINEAR PHYSICS, PHYSICS OF "SOFT" MATTER
URL: https://journal-vniispk.ru/0044-4510/article/view/268682
DOI: https://doi.org/10.31857/S0044451024110166
ID: 268682

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Experimental studies of 4-wire X-pinches on the upgraded KING generator, consisting of four low- inductance capacitors, with a current maximum of 160–250 kA, current rise time of 150–300 ns at a charging voltage of 45 kV are presented. The possibility of using the generator as a source of soft X-ray radiation using standard X-pinches made of Al, Cu or Mo wires with a diameter of 25 μm is demonstrated. It is shown that the modernization led to an increase in inductance but did not deteriorate the X-pinch parameters. This resulted in the possibility of using this generator to power standard X-pinches and their use as radiation sources for point projection radiography with spatial resolution of about 13-23 mm.

参考

T.A. Shelkovenko, S.A. Pikuz, A.R. Mingaleev, and D.A. Hammer, Studies of Plasma Formation from Exploding Wires and Multiwire Arrays Using X-ray Backlighting, Rev. Sci. Instrum 70, 667 (1999).
S.V. Lebedev, F.N. Beg, S.N. Bland et al., X-ray Backlighting of Wire Array Z-pinch Implosions Using X-pinch, Rev. Sci. Instrum. 72, 671 (2001).
T.A. Shelkovenko, D.B. Sinars, S.A. Pikuz, and D.A. Hammer, Radiographic and Spectroscopic Studies of X-pinch Plasma Implosion Dynamics and X-ray Burst Emission Characteristics, Phys.Plasmas 8, 1305 (2001).
T. Zhao, X. Zou, X. Wang et al., X-Ray Backlighting of Developments of X-pinches and Wire-Array Zpinches Using an X-pinch, IEEE Trans. on Plasma Sci. 38, 646 (2010).
X. Zhu, X. Zou, R. Zhang et al., X-Ray Backlighting of the Initial Stage of Single-and Multiwire Z-Pinch, IEEE Trans. on Plasma Sci. 40, 3329 (2012).
T.A. Shelkovenko, S.A. Pikuz, and D.A. Hammer, A Review of Projection Radiography of Plasma and Biological Objects in X-pinch Radiation, Plasma Phys.Rep. 42, 226 (2016).
S.A. Pikuz, T.A. Shelkovenko, I.N. Tilikin et al., Study of SXR/EUV Radiation of Exploded Foils and Wires with Spectral, Spatial and Temporal Resolution Simultaneously on KING Electric Discharge Facility, Plasma Sources Sci. and Technol. 30, 115012 (2021).
T.A. Shelkovenko, I.N. Tilikin, E.A. Bolkhovitinov et al., A Study of the Ultraviolet Radiation of Hybrid X-pinches, Plasma Phys.Rep. 46, 10 (2020).
S.A. Pikuz, D.B. Sinars, T.A. Shelkovenko et al., High Energy Density Z-pinch Plasma Conditions with Picosecond Time Resolution, Phys.Rev. Let. 89, 035003 (2002).
S.V. Lebedev, F.N. Beg, S.N. Bland et al., Effect of Core-Corona Plasma Structure on Seeding of Instabilities in Wire Array Z Pinches, Phys.Rev. Let. 85, 98 (2000).
T.A. Shelkovenko, S.A. Pikuz, J.D. Douglass et al., Multiwire X-pinches at 1-MA Current on the COBRA Pulsed-Power Generator, IEEE Trans. on Plasma Sci. 34, 2336 (2006).
G.A. Mesyats, T.A. Shelkovenko, G.V. Ivanenkov et al., X-pinch Source of Subnanosecond Soft X-ray Pulses Based on Small-sized Low-inductance Current Generator, J. of Exp. and Theor. Phys. 111, 363 (2010).
S.A. Pikuz, T.A. Shelkovenko, and D.A. Hammer Xpinch. Part I, Plasma Phys.Rep. 41, 291 (2015).
T. Shelkovenko, S. Pikuz, and D. Hammer, X-pinches as Broadband Sources of X-rays for Radiography, J. of Biomedical Sci. and Engineering 8, 747 (2015).
T.A. Shelkovenko, S.A. Pikuz, A.R. Mingaleev et al., Accelerated Electrons and Hard X-ray Emission from X-pinches, Plasma Phys.Rep 34, 754 (2008).
T.A. Shelkovenko, S.A. Pikuz, C. L. Hoyt et al., A Source of Hard X-ray Radiation Based on Hybrid XPinches, Phys.Plasmas 23, 10 (2016).
С.М. Захаров, Г.В. Иваненков, А.А. Коломенский и др., Проволочный X-пинч в сильноточном диоде, Письма в ЖТФ 8, 1060 (1982).
T.A. Shelkovenko, S.A. Pikuz, I.N. Tilikin et al., Xpinch X-ray Emission on a Portable Low-current, Fast Rise-time Generator, J. of Appl.Phys. 124, 8 (2018).
T.A. Shelkovenko, I.N. Tilikin, G.V. Ivanenkov et al., Dynamics of hybrid X-pinches, Plasma Phys.Rep. 41, 52 (2015).
A.V. Kharlov, B.M. Kovalchuk, V.B. Zorin, Compact High Current Generator for X-Ray Radiography, Rev. Sci. Instr. 77, 123501 (2006).
A.P. Artyomov, A.V. Fedyunin, S.A. Chaikovsky et al., A Double-frame Nanosecond Soft X-ray Backlighting System Based on X-pinches, Instr. and Exp.Tech. 56, 66 (2013).
A.P. Artyomov, M.G. Bykova, S.A. Chaikovsky et al., A Small-scale X-pinch-based Nanosecond Soft Xray Pulse Radiograph, Russ.Phys. J 56, 66 (2012).
S.A. Pikuz, T.A. Shelkovenko, I.N. Tilikin et al., Study of SXR/EUV Radiation of Exploded Foils and Wires with Spectral, Spatial and Temporal Resolution Simultaneously on KING Electric Discharge Facility, Plasma Sources Sci. and Technol. 30, 115012 (2021).
E.A. Bolkhovitinov, I.N. Tilikin, T.A. Shelkovenko et al., Study of Hybrid X-pinch in the XUV and SXR Spectral Ranges, J. of Phys.: Conf. Ser. 1094, 012022 (2018).
E.A. Bolkhovitinov, I.N. Tilikin, T.A. Shelkovenko et al., Study of VUV Radiation of Hybrid and Standard X-pinches on KING Electric Discharge Facility, Plasma Sources Sci. and Technol. 29, 025009 (2020).
D.B. Sinars, S.A. Pikuz, J.D. Douglass et al., Bright Spots in 1 MA X-pinches as a Function of Wire Number and Material, Phys.Plasmas 15, 9 (2008).
I.N. Tilikin, T.A. Shelkovenko, S.A. Pikuz et al., Exploding Foils with Artificial Structure as a Source of Ultraviolet Radiation, J. of Appl.Phys. 134, 3 (2023).
T.A. Shelkovenko, I.N. Tilikin, A.V. Oginov et al., Methods of Controlled Formation of Instabilities During the Electrical Explosion of Thin Foils, Matter and Radiation at Extremes 8, 5 (2023).
http://www.prism-cs.com/Software/PrismSpect/PrismSPECT.htm

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卷 167, 编号 5 (2025)

FEATURES OF WIRE X-PINCHES OPERATION ON THE COMPACT HIGH-CURRENT GENERATOR KING

全文:

详细

作者简介

I. Tilikin

T. Shelkovenko

A. Mingaleev

A. Mingaleev

A. Ter-Oganesyan

S. Pikuz

参考

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