Abstract
Sandia is developing PBFA-Z, a 20-MA driver for z-pinch experiments by replacing the water lines, insulator stack, and MITLs on PBFA II with new hardware. The design of the vacuum insulator stack was dictated by the drive voltage, the electric field stress and grading requirements, the water line and MITL interface requirements, and the machine operations and maintenance requirements. The insulator stack will consist of four separate modules, each of a different design because of different voltage drive and hardware interface requirements. The shape of the components in each module, i.e., grading rings, insulator rings, flux excluders, anode and cathode conductors, and the design of the water line and MITL interfaces, were optimized by using the electrostatic analysis codes, ELECTRO and JASON. The time-dependent performance of the insulator stack was evaluated using IVORY, a 2-D PIC code. The insulator stack design and present the results of the ELECTRO and IVORY analyses are described. (author). 2 tabs., 9 figs., 3 refs.
Shoup, R W;
[1]
Long, F;
Martin, T H;
Stygar, W A;
Spielman, R B;
[2]
Ives, H;
[3]
Struve, K W;
Mostrom, M;
[4]
Corcoran, P;
Smith, I
[5]
- Field Command Defense Nuclear Agency, Kirtland AFB, NM (United States)
- Sandia National Laboratories, Albuquerque, NM (United States). Dept 9573
- EG and G, Albuquerque, NM (United States)
- Mission Research Corp., Albuquerque, NM (United States)
- Pulse Sciences, Inc., San Leandro, CA (United States)
Citation Formats
Shoup, R W, Long, F, Martin, T H, Stygar, W A, Spielman, R B, Ives, H, Struve, K W, Mostrom, M, Corcoran, P, and Smith, I.
Design and analysis of the PBFA-Z vacuum insulator stack.
Czech Republic: N. p.,
1996.
Web.
Shoup, R W, Long, F, Martin, T H, Stygar, W A, Spielman, R B, Ives, H, Struve, K W, Mostrom, M, Corcoran, P, & Smith, I.
Design and analysis of the PBFA-Z vacuum insulator stack.
Czech Republic.
Shoup, R W, Long, F, Martin, T H, Stygar, W A, Spielman, R B, Ives, H, Struve, K W, Mostrom, M, Corcoran, P, and Smith, I.
1996.
"Design and analysis of the PBFA-Z vacuum insulator stack."
Czech Republic.
@misc{etde_511312,
title = {Design and analysis of the PBFA-Z vacuum insulator stack}
author = {Shoup, R W, Long, F, Martin, T H, Stygar, W A, Spielman, R B, Ives, H, Struve, K W, Mostrom, M, Corcoran, P, and Smith, I}
abstractNote = {Sandia is developing PBFA-Z, a 20-MA driver for z-pinch experiments by replacing the water lines, insulator stack, and MITLs on PBFA II with new hardware. The design of the vacuum insulator stack was dictated by the drive voltage, the electric field stress and grading requirements, the water line and MITL interface requirements, and the machine operations and maintenance requirements. The insulator stack will consist of four separate modules, each of a different design because of different voltage drive and hardware interface requirements. The shape of the components in each module, i.e., grading rings, insulator rings, flux excluders, anode and cathode conductors, and the design of the water line and MITL interfaces, were optimized by using the electrostatic analysis codes, ELECTRO and JASON. The time-dependent performance of the insulator stack was evaluated using IVORY, a 2-D PIC code. The insulator stack design and present the results of the ELECTRO and IVORY analyses are described. (author). 2 tabs., 9 figs., 3 refs.}
place = {Czech Republic}
year = {1996}
month = {Dec}
}
title = {Design and analysis of the PBFA-Z vacuum insulator stack}
author = {Shoup, R W, Long, F, Martin, T H, Stygar, W A, Spielman, R B, Ives, H, Struve, K W, Mostrom, M, Corcoran, P, and Smith, I}
abstractNote = {Sandia is developing PBFA-Z, a 20-MA driver for z-pinch experiments by replacing the water lines, insulator stack, and MITLs on PBFA II with new hardware. The design of the vacuum insulator stack was dictated by the drive voltage, the electric field stress and grading requirements, the water line and MITL interface requirements, and the machine operations and maintenance requirements. The insulator stack will consist of four separate modules, each of a different design because of different voltage drive and hardware interface requirements. The shape of the components in each module, i.e., grading rings, insulator rings, flux excluders, anode and cathode conductors, and the design of the water line and MITL interfaces, were optimized by using the electrostatic analysis codes, ELECTRO and JASON. The time-dependent performance of the insulator stack was evaluated using IVORY, a 2-D PIC code. The insulator stack design and present the results of the ELECTRO and IVORY analyses are described. (author). 2 tabs., 9 figs., 3 refs.}
place = {Czech Republic}
year = {1996}
month = {Dec}
}