Back to Search Start Over

Current scaling of radiated power for 40-mm diameter single wire arrays on Z.

Authors :
Nash, T. J.
Cuneo, M. E.
Spielman, R. B.
Chandler, G. A.
Leeper, R. J.
Seaman, J. F.
Mcgurn, J.
Lazier, S.
Torres, J.
Jobe, D.
Gilliland, I.
Nielsen, D.
Hawn, R.
Bailey, J. E.
Lake, P.
Carlson, A. L.
Seamen, H.
Moore, I.
Smelser, R.
Pyle, J.
Source :
Physics of Plasmas. Nov2004, Vol. 11 Issue 11, p5156-5161. 6p.
Publication Year :
2004

Abstract

In order to estimate the radiated power that can be expected from the next-generation Z-pinch driver such as ZR at 28 MA, current-scaling experiments have been conducted on the 20 MA driver Z. We report on the current scaling of single 40 mm diameter tungsten 240 wire arrays with a fixed 110 ns implosion time. The wire diameter is decreased in proportion to the load current. Reducing the charge voltage on the Marx banks reduces the load current. On one shot, firing only three of the four levels of the Z machine further reduced the load current. The radiated energy scaled as the current squared as expected but the radiated power scaled as the current to the 3.52±0.42 power due to increased x-ray pulse width at lower current. As the current is reduced, the rise time of the x-ray pulse increases and at the lowest current value of 10.4 MA, a shoulder appears on the leading edge of the x-ray pulse. In order to determine the nature of the plasma producing the leading edge of the x-ray pulse at low currents further shots were taken with an on-axis aperture to view on-axis precursor plasma. This aperture appeared to perturb the pinch in a favorable manner such that with the aperture in place there was no leading edge to the x-ray pulses at lower currents and the radiated power scaled as the current squared ±0.75. For a full-current shot we will present x-ray images that show precursor plasma emitting on-axis 77 ns before the main x-ray burst. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
1070664X
Volume :
11
Issue :
11
Database :
Academic Search Index
Journal :
Physics of Plasmas
Publication Type :
Academic Journal
Accession number :
14909952
Full Text :
https://doi.org/10.1063/1.1804182