Your search keyword '"Anaya, Victor"' showing total 3 results

1. Time history and spectra of the light emitted by multimegavolt water switches

Author

Woodworth, Joseph R., Barnat, Edward, Aragon, Ben, Corley, John, Hodge, Keith, Blickem, James, Anaya, Victor, Guthrie, Douglas, Bliss, David, Lehr, Jane, Maenchen, John E., Wakeland, Peter, Drennan, Scott, and Johnson, David L.

Subjects

Spectrum analysis -- Methods, Switches -- Properties, Light -- Properties, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

We study the physics of water switching at 4 to 5 MV as part of Sandia's Z-Refurbishment program. We present time histories of the light emitted by two sets of water switches and correlate the light emission to the accelerator power pulse. Framing camera images demonstrate how the initial 'bushy' streamers collapse to narrow current channels at late time. Spectroscopy of the water switches indicates that the early-time streamers are already hot-dense blackbodies with temperatures between 7000 K and 9000 K. Late time hydrogen emission lines allow estimates of electron densities at that time ranging from 0.2 to 2 x [10.sup.18]/[cm.sup.3]. Index Terms--Optical diagnostics, pulsed power, spectroscopy, water switches.

Published

2007

2. Multimegavolt laser-triggered gas switching with a green laser and beam transport through water

Author

Zameroski, Nathan D., Lehr, Jane M., Woodworth, Joseph R., Blickem, Jim R., Hodge, Keith C., Wallace, Zachariah R., Anaya, Victor, Corley, John P., and Lott, John A.

Subjects

Laser beams -- Usage, Plasma dynamics -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

Ultraviolet (UV) laser-triggered gas switching using laser beams at 266 nm has greatly improved the simultaneity of many large multimodule accelerators. This UV beam however cannot be transmitted significant distances through water or oil. Since the switches in these accelerators are typically submerged in water or oil, the laser beams are often conveyed to the switches through gas-filled 'laser crossover tubes.' These crossover tubes are difficult to field grade properly and are subject to frequent mechanical and electrical failures in the pulse-power environment. We have demonstrated that a 4.6-MV multistage gas switch insulated with S[F.sub.6] can be triggered with a jitter of less than 10 ns using 110-mJ pulses of a green (532-nm) laser beam that has been transported through 67 cm of 1-M[OMEGA]-cm water on its way to the switch. These results may allow elimination of the laser crossover tubes in future accelerators. Index Terms--Gas breakdown, laser-triggered gas switches (LTGSs), refurbished Z-machine (ZR), S[F.sub.6], Z-machine, z -pinches.

Published

2007

3. Fundamental science investigations to develop a 6-MV laser triggered gas switch for ZR: first annual report

Author

David R. Johnson, A. Benwell, Scott D. Kovaleski, Kenneth W. Struve, R.A. Fouracre, Roy E. Jorgenson, Martin J. Given, Greg Feltz, James A. Van Den Avyle, Dale Welch, Z.R. Wallace, K.C. Hodge, Randy D. Curry, Joseph Ray Woodworth, G. Randall McKee, J.P. Corley, Jane M. Lehr, Carsten Thoma, Larry K. Warne, K.R. Prestwich, Anaya, Victor (Ktech Corporation, Albuquerque, Nm), LeChien, Keith, R., David E. Bliss, A. R. (Titan Pulse Sciences Division) Miller, H.G. Krompholz, Mark E. Savage, Igor V. Timoshkin, Scott J. MacGregor, Yeckel, Chris (University of Missouri-Columbia, Columbia, Missouri), R. Vela, J.E. Maenchen, P. E. Wakeland, Andreas A. Neuber, M.F. Pasik, John T. Krile, David V. Rose, and S.E. Rosenthal

Subjects

Engineering, business.industry, Nuclear engineering, Electrical engineering, Annual report, Voltage regulator, Laser, law.invention, Inductance, Reliability (semiconductor), Upgrade, Cascade, law, business, Voltage

Abstract

In October 2005, an intensive three-year Laser Triggered Gas Switch (LTGS) development program was initiated to investigate and solve observed performance and reliability issues with the LTGS for ZR. The approach taken has been one of mission-focused research: to revisit and reassess the design, to establish a fundamental understanding of LTGS operation and failure modes, and to test evolving operational hypotheses. This effort is aimed toward deploying an initial switch for ZR in 2007, on supporting rolling upgrades to ZR as the technology can be developed, and to prepare with scientific understanding for the even higher voltage switches anticipated needed for future high-yield accelerators. The ZR LTGS was identified as a potential area of concern quite early, but since initial assessments performed on a simplified Switch Test Bed (STB) at 5 MV showed 300-shot lifetimes on multiple switch builds, this component was judged acceptable. When the Z{sub 20} engineering module was brought online in October 2003 frequent flashovers of the plastic switch envelope were observed at the increased stresses required to compensate for the programmatically increased ZR load inductance. As of October 2006, there have been 1423 Z{sub 20} shots assessing a variety of LTGS designs. Numerous incremental and fundamentalmore » switch design modifications have been investigated. As we continue to investigate the LTGS, the basic science of plastic surface tracking, laser triggering, cascade breakdown, and optics degradation remain high-priority mission-focused research topics. Significant progress has been made and, while the switch does not yet achieve design requirements, we are on the path to develop successively better switches for rolling upgrade improvements to ZR. This report summarizes the work performed in FY 2006 by the large team. A high-level summary is followed by detailed individual topical reports.« less

Published

2007