The ZR refurbishment project

ZR is a refurbished (R) version of Z aiming to improve its overall performance, reliability, precision, pulse shape tailoring and reproducibility. Z, the largest pulsed power machine at Sandia, began in December 1985 as the Particle Beam Fusion Accelerator II (PBFA II). PBFAII was modified in 1996 t...

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Published in2002 14th International Conference on High-Power Particle Beams (BEAMS) Vol. 2; pp. 23 - 28
Main Authors McDaniel, Dillon H., Mazarakis, Michael G., Bliss, David E., Elizondo, Juan M., Harjes, Henry C., Ives, Harry C., Kitterman, David L., Maenchen, John E., Pointon, Timothy D., Rosenthal, Stephen E., Smith, David L., Struve, Kenneth W., Stygar, William A., Weinbrecht, Edward A., Johnson, David L., Corley, John P.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.06.2002
Subjects
Current measurement
Reliability engineering
Tin
Zirconium
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Summary:ZR is a refurbished (R) version of Z aiming to improve its overall performance, reliability, precision, pulse shape tailoring and reproducibility. Z, the largest pulsed power machine at Sandia, began in December 1985 as the Particle Beam Fusion Accelerator II (PBFA II). PBFAII was modified in 1996 to a z-pinch driver by incorporating a high-current (20-MA, 2.5-MV) configuration in the inner ∼ 4.5 meter section. Following its remarkable success as z-pinch driver, PBFA II was renamed Z in 1997. Currently Z fires 170 to 180 shots a year with a peak load current of the order of 18-20 MA. The maximum z-pinch output achieved to date is 1.6-MJ, 170-TW radiated energy and power from a single 4-cm diameter, 2-cm tall array, and 215 eV temperature from a dynamic hohlraum. ZR in turn will, operating in double shift, enable 400 shots per year, deliver a peak current of 26 MA into a standard 4cm × 2cm Z-pinch load, and should provide a total radiated x-ray energy and power of 3 MJ and 350 TW, respectively, achieve a maximum hohlraum temperature of 260 eV, and include a pulse-shaping flexibility extending from 100ns to 300ns for equation of state and isentropic compression studies. To achieve this performance ZR will incorporate substantial modifications and upgrades to Marx generator, intermediate store capacitors, gas and water switches, water transmission lines and the laser triggering system. Test beds are already in place, and the new pulsed power components are undergoing extensive evaluation. The Z refurbishment (ZR) will be operational by 2006 and will cost approximately 60M.
ISBN:9780735401075
0735401071
DOI:10.1063/1.1531273