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Thermonuclear and beam fusion in deuterium Z-pinch implosions : theory and modeling

Deeney, Christopher D.; Ruiz, Carlos L.; Coverdale, Christine A.

The conclusions of this report are: (1) 1D and 2D RMHD simulations indicate feasibility of producing high thermonuclear neutron yields in deuterium and DT gas-puff Z-pinches -- (a) Z 1.7 x 10{sup 13} DD neutrons at 70 kV, 13 MA (Z1384); (b) (3 to 6) x 10{sup 14} at 90 kV, 17 MA (Z1422); (c) Predicted for ZR 2 x 10{sup 15} DD and 6 x 10{sup 16} DT neutrons; (2) Theory and modeling issues -- collisionless ions, nonthermal ions; (3) Experimental data on the origin of the neutrons not yet conclusive, need more shots; and (4) Applications -- (a) Fusion 2.5 and 14 MeV neutron source; (b) Pulsed subcritical neutron source with uranium blanket for {approx}10x neutron and {approx}1000x energy multiplication (Smirnov, Feoktistov and Klimov); and (c) Fusion-assisted keV x-ray plasma radiation source.

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Progress in Z-Pinch driven dynamic-hohlraums for high-temperature radiation-flow and ICF experiments at Sandia National Laboratories

Sanford, Thomas W.; Cuneo, M.E.; Leeper, Ramon J.; Matzen, M.K.; Mehlhorn, Thomas A.; Slutz, Stephen A.; Nash, Thomas J.; Stygar, William A.; Olson, Richard E.; Olson, Craig L.; Bliss, David E.; Lemke, Raymond W.; Ruiz, Carlos L.; Bailey, James E.; Chandler, Gordon A.

Progress in understanding the physics of dynamic-hohlraums is reviewed for a system capable of generating 13 TW of axial radiation for high temperature (>200 eV) radiation-flow experiments and ICF capsule implosions.

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Optimization of the lead probe neutron detector

Ruiz, Carlos L.

The lead probe neutron detector was originally designed by Spencer and Jacobs in 1965. The detector is based on lead activation due to the following neutron scattering reactions: {sup 207}Pb(n, n'){sup 207m}Pb and {sup 208}Pb(n, 2n){sup 207m}Pb. Delayed gammas from the metastable state of {sup 207m}Pb are counted using a plastic scintillator. The half-life of {sup 207m}Pb is 0.8 seconds. In the work reported here, MCNP was used to optimize the efficiency of the lead probe by suitably modifying the original geometry. A prototype detector was then built and tested. A 'layer cake' design was investigated in which thin (< 5 mm) layers of lead were sandwiched between thicker ({approx} 1 - 2 cm) layers of scintillator. An optimized 'layer cake' design had Figures of Merit (derived from the code) which were a factor of 3 greater than the original lead probe for DD neutrons, and a factor of 4 greater for DT neutrons, while containing 30% less lead. A smaller scale, 'proof of principle' prototype was built by Bechtel/Nevada to verify the code results. Its response to DD neutrons was measured using the DD dense plasma focus at Texas A&M and it conformed to the predicted performance. A voltage and discriminator sweep was performed to determine optimum sensitivity settings. It was determined that a calibration operating point could be obtained using a {sup 133}Ba 'bolt' as is the case with the original lead probe.

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Hot Dense Capsule-Implosion Cores Produced by [Formula presented]-Pinch Dynamic Hohlraum Radiation

Physical Review Letters

Bailey, James E.; Chandler, Gordon A.; Slutz, S.A.; Golovkin, I.; Lake, Patrick W.; Macfarlane, Joseph J.; Mancini, R.C.; Burris-Mog, T.J.; Cooper, G.; Leeper, R.J.; Mehlhorn, T.A.; Moore, T.C.; Nash, Thomas J.; Nielsen, D.S.; Ruiz, Carlos L.; Schroen, D.G.; Varnum, W.A.

Hot dense capsule implosions driven by [Formula presented]-pinch x rays have been measured using a [Formula presented] dynamic hohlraum to implode 1.7–2.1 mm diameter gas-filled CH capsules. The capsules absorbed up to [Formula presented] of x rays. Argon tracer atom spectra were used to measure the [Formula presented] electron temperature and the [Formula presented] electron density. Spectra from multiple directions provide core symmetry estimates. Computer simulations agree well with the peak emission values of [Formula presented], [Formula presented], and symmetry, indicating reasonable understanding of the hohlraum and implosion physics. © 2004 The American Physical Society.

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Z facility diagnostic system for high energy density physics at Sandia National Laboratories

Leeper, Ramon J.; Deeney, Christopher D.; Dunham, Gregory S.; Fehl, David L.; Franklin, James K.; Hawn, Rona E.; Hall, Clint A.; Hurst, Michael J.; Jinzo, Tanya D.; Jobe, Daniel O.; Leeper, Ramon J.; Joseph, Nathan R.; Knudson, Marcus D.; Lake, Patrick W.; Lazier, Steven E.; Lucas, J.; McGurn, John S.; Manicke, Matthew P.; Mock, Raymond M.; Moore, T.C.; Nash, Thomas J.; Bailey, James E.; Nelson, Alan J.; Nielsen, D.S.; Olson, Richard E.; Pyle, John H.; Rochau, G.A.; Ruggles, Larry R.; Ruiz, Carlos L.; Sanford, Thomas W.; Seamen, Johann F.; Bennett, Guy R.; Simpson, Walter W.; Sinars, Daniel S.; Speas, Christopher S.; Stygar, William A.; Wenger, D.F.; Seamen, Johann J.; Carlson, Alan L.; Chandler, Gordon A.; Cooper, Gary W.; Cuneo, M.E.

Abstract not provided.

Recent experimental results on ICF target implosions by Z-pinch radiation sources and their relevance to ICF ignition studies

Mehlhorn, Thomas A.; Leeper, Ramon J.; Macfarlane, Joseph J.; Matzen, M.K.; Nash, Thomas J.; Olson, Craig L.; Ruiz, Carlos L.; Schroen, D.G.; Slutz, Stephen A.; Mehlhorn, Thomas A.; Varnum, W.A.; Vesey, Roger A.; Bailey, James E.; Bennett, Guy R.; Chandler, Gordon A.; Cooper, Gary W.; Cuneo, M.E.

Inertial confinement fusion capsule implosions absorbing up to 35 kJ of x-rays from a {approx}220 eV dynamic hohlraum on the Z accelerator at Sandia National Laboratories have produced thermonuclear D-D neutron yields of (2.6 {+-} 1.3) x 10{sup 10}. Argon spectra confirm a hot fuel with Te {approx} 1 keV and n{sub e} {approx} (1-2) x 10{sup 23} cm{sup -3}. Higher performance implosions will require radiation symmetry control improvements. Capsule implosions in a {approx}70 eV double-Z-pinch-driven secondary hohlraum have been radiographed by 6.7 keV x-rays produced by the Z-beamlet laser (ZBL), demonstrating a drive symmetry of about 3% and control of P{sub 2} radiation asymmetries to {+-}2%. Hemispherical capsule implosions have also been radiographed in Z in preparation for future experiments in fast ignition physics. Z-pinch-driven inertial fusion energy concepts are being developed. The refurbished Z machine (ZR) will begin providing scaling information on capsule and Z-pinch in 2006. The addition of a short pulse capability to ZBL will enable research into fast ignition physics in the combination of ZR and ZBL-petawatt. ZR could provide a test bed to study NIF-relevant double-shell ignition concepts using dynamic hohlraums and advanced symmetry control techniques in the double-pinch hohlraum backlit by ZBL.

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Results 76–85 of 85
Results 76–85 of 85