The scrounge-atron: a phased approach to the advanced hydrotest facility utilizing proton radiography

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The Department of Energy has initiated its Stockpile Stewardship and Management Program (SSMP) to provide a single, integrated technical program for maintaining the continued safety and reliability of the nation's nuclear weapons stockpile in the absence of nuclear testing. Consistent with the SSMP, the Advanced Hydrotest Facility (AHF) has been conceived to provide improved radiographic imaging with multiple axes and multiple time frames. The AHF would be used to better understand the evolution of nuclear weapon primary implosion shape under normal and accident scenarios. There are three fundamental technologies currently under consideration for use on the AHF. These include linear ... continued below

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434 Kilobytes pages

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Alford, O.J.; Barnes, P.D. Jr.; Chargin, A.K.; Dekin, W.D.; Hartouni, E.P.; Hockman, J. et al. March 1, 1999.

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The Department of Energy has initiated its Stockpile Stewardship and Management Program (SSMP) to provide a single, integrated technical program for maintaining the continued safety and reliability of the nation's nuclear weapons stockpile in the absence of nuclear testing. Consistent with the SSMP, the Advanced Hydrotest Facility (AHF) has been conceived to provide improved radiographic imaging with multiple axes and multiple time frames. The AHF would be used to better understand the evolution of nuclear weapon primary implosion shape under normal and accident scenarios. There are three fundamental technologies currently under consideration for use on the AHF. These include linear induction acceleration, inductive-adder pulsed-power technology (both technologies using high current electron beams to produce an intense X-ray beam) and high-energy proton accelerators to produce a proton beam. The Scrounge-atron (a proton synchrotron) was conceived to be a relatively low cost demonstration of the viability of the third technology using bursts of energetic protons, magnetic lenses, and particle detectors to produce the radiographic image. In order for the Scrounge-atron to provide information useful for the AHF technology decision, the accelerator would have to be built as quickly and as economically as possible. These conditions can be met by scrounging parts from decommissioned accelerators across the country, especially the Main Ring at Fermilab. The Scrounge-atron is designed to meet the baseline parameters for single axis proton radiography: a 20 GeV proton beam of ten pulses, 10{sup 11} protons each, spaced 250 ns apart.

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434 Kilobytes pages

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  • Particle Accelerator Conference 1999, New York, NY (US), 03/29/1999--04/02/1999

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  • Report No.: UCRL-JC-133131
  • Report No.: DP0102015
  • Grant Number: W-7405-ENG-48
  • Office of Scientific & Technical Information Report Number: 8316
  • Archival Resource Key: ark:/67531/metadc783402

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Reports, articles and other documents harvested from the Office of Scientific and Technical Information.

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  • March 1, 1999

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  • Dec. 3, 2015, 9:30 a.m.

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  • May 6, 2016, 3:48 p.m.

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Alford, O.J.; Barnes, P.D. Jr.; Chargin, A.K.; Dekin, W.D.; Hartouni, E.P.; Hockman, J. et al. The scrounge-atron: a phased approach to the advanced hydrotest facility utilizing proton radiography, article, March 1, 1999; California. (digital.library.unt.edu/ark:/67531/metadc783402/: accessed June 22, 2018), University of North Texas Libraries, Digital Library, digital.library.unt.edu; crediting UNT Libraries Government Documents Department.