科技报告详细信息
Compact Wire Array Sources: Power Scaling and Implosion Physics.
Serrano, Jason Dimitri ; Chuvatin, Alexander S. ; Jones, M. C. ; Vesey, Roger Alan ; Waisman, Eduardo M. ; Ivanov, V. V. ; Esaulov, Andrey A. ; Ampleford, David J. ; Cuneo, Michael Edward ; Kantsyrev, Victor Leonidovich ; Coverdale, Christine Anne ; Rudakov, L. I. ; Jones, Brent Manley ; Safronova, Alla S. ; Vigil, Marcelino Patricio
Sandia National Laboratories
关键词: Heating;    X-Ray Sources Pulsed Power Systems.;    K Shell;    Thermonuclear Fuels;    70 Plasma Physics And Fusion Technology;   
DOI  :  10.2172/941403
RP-ID  :  SAND2008-6166
RP-ID  :  AC04-94AL85000
RP-ID  :  941403
美国|英语
来源: UNT Digital Library
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【 摘 要 】

A series of ten shots were performed on the Saturn generator in short pulse mode in order to study planar and small-diameter cylindrical tungsten wire arrays at {approx}5 MA current levels and 50-60 ns implosion times as candidates for compact z-pinch radiation sources. A new vacuum hohlraum configuration has been proposed in which multiple z pinches are driven in parallel by a pulsed power generator. Each pinch resides in a separate return current cage, serving also as a primary hohlraum. A collection of such radiation sources surround a compact secondary hohlraum, which may potentially provide an attractive Planckian radiation source or house an inertial confinement fusion fuel capsule. Prior to studying this concept experimentally or numerically, advanced compact wire array loads must be developed and their scaling behavior understood. The 2008 Saturn planar array experiments extend the data set presented in Ref. [1], which studied planar arrays at {approx}3 MA, 100 ns in Saturn long pulse mode. Planar wire array power and yield scaling studies now include current levels directly applicable to multi-pinch experiments that could be performed on the 25 MA Z machine. A maximum total x-ray power of 15 TW (250 kJ in the main pulse, 330 kJ total yield) was observed with a 12-mm-wide planar array at 5.3 MA, 52 ns. The full data set indicates power scaling that is sub-quadratic with load current, while total and main pulse yields are closer to quadratic; these trends are similar to observations of compact cylindrical tungsten arrays on Z. We continue the investigation of energy coupling in these short pulse Saturn experiments using zero-dimensional-type implosion modeling and pinhole imaging, indicating 16 cm/?s implosion velocity in a 12-mm-wide array. The same phenomena of significant trailing mass and evidence for resistive heating are observed at 5 MA as at 3 MA. 17 kJ of Al K-shell radiation was obtained in one Al planar array fielded at 5.5 MA, 57 ns and we compare this to cylindrical array results in the context of a K-shell yield scaling model. We have also performed an initial study of compact 3 mm diameter cylindrical wire arrays, which are alternate candidates for a multi-pinch vacuum hohlraum concept. These massive 3.4 and 6 mg/cm loads may have been impacted by opacity, producing a maximum x-ray power of 7 TW at 4.5 MA, 45 ns. Future research directions in compact x-ray sources are discussed.

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