Zobrazeno 1 - 10
of 224
pro vyhledávání: '"R.L. Engelstad"'
Autor:
H.Y. Khater, Robert R. Peterson, I.N. Sviatoslavsky, Gerald L. Kulcinski, R.L. Engelstad, Joseph J. MacFarlane, P. L. Cousseau, Pengxiang Wang, E. A. Mogahed, Mohamed E. Sawan
Publikováno v:
Fusion Technology. 30:1299-1303
LIBRA-SP is a 1000 MWe light ion beam driven inertial confinement fusion power reactor design study which utilizes a self-pinched mode for propagating ions to the target. It is driven by 7.2 MJ of ...
Autor:
P. Wang, J. J. MacFarlane, Robert R. Peterson, H.Y. Khater, Gerald L. Kulcinski, R.L. Engelstad, Mohamed E. Sawan, P. L. Cousseau, E. A. Mogahed, I.N. Sviatoslavsky
Publikováno v:
Fusion Technology. 30:1641-1645
The design of a 1,000 MWe light ion driven fusion power plant is given. Considerable progress has been made in analyzing the target performance and. its impact on the cavity design. Recent declassi...
Autor:
Mohamed E. Sawan, P. L. Cousseau, I.N. Sviatoslavsky, Robert R. Peterson, H.Y. Khater, Layton J. Wittenberg, P. Wang, Gregory A. Moses, Gerald L. Kulcinski, R.L. Engelstad, E. A. Mogahed, D. Bruggink, J. J. MacFarlane, S. Rutledge, Y.-M. Lee, Edward G. Lovell
Publikováno v:
Fusion Technology. 26:849-856
The use of light ion or electron beams to compress matter to the densities required for fusion has been proposed for more than 20 years. In the past ten years, a series of light ion beam power plan...
Autor:
Edward G. Lovell, Edwin M. Larsen, E. A. Mogahed, Gerald L. Kulcinski, R.L. Engelstad, Joseph J. MacFarlane, D. Bruggink, Mohamed E. Sawan, Layton J. Wittenberg, P. Wang, Robert R. Peterson, H.Y. Khater, Gregory A. Moses, I.N. Sviatoslavsky
Publikováno v:
Fusion Technology. 26:868-872
This paper describes the design of a 1000 MWe inertially confined fusion power reactor utilizing near symmetric illumination provided by a KrF laser. The nominal laser energy is 3.4 MJ, the target ...
Autor:
Robert R. Peterson, Thomas Alan Mehlhorn, D.L. Johnson, K.R. Prestwich, Maurice Keith Matzen, D. L. Cook, J.J. Ramirez, M.J. Clauser, J. D. Boyes, Regan W. Stinnett, G.O. Allshouse, Craig L. Olson, Gerald L. Kulcinski, R.L. Engelstad, J.K. Rice, Gregory A. Moses
Publikováno v:
Laser and Particle Beams. 11:423-430
Intense light-ion beams are being developed for investigations of inertial confinement fusion (ICF). This effort has concentrated on developing the Particle Beam Fusion Accelerator II (PBFA II) at Sandia as a driver for ICF target experiments, on des
Publikováno v:
Sensors and Actuators A: Physical. 35:51-59
Polysilicon resonant microbeams can be used as strain-sensitive elements to replace conventional silicon piezoresistors in precision sensor applications, such as pressure sensors and accelerometers. These elements are combined with conventional silic
Autor:
Robert R. Peterson, G. Sviatoslavsky, J. J. MacFariane, Mohamed E. Sawan, I. N. SviatoslJavsky, Gerald L. Kulcinski, R.L. Engelstad, Layton J. Wittenberg, S. Rutledge, Gregory A. Moses, Edward G. Lovell, E. A. Mogahed
Publikováno v:
Journal of Fusion Energy. 10:339-344
The results from this study indicate that light ions can be a competitive factor in the race to commercial fusion power. The relatively simple and near-term driver technology is particularly attractive compared to higher cost laser and heavy ion sche
Publikováno v:
Fusion Technology. 19:740-745
Publikováno v:
Fusion Technology. 19:697-702
Autor:
J. D. Boyes, Regan W. Stinnett, G.O. Allshouse, D.L. Johnson, J.W. Powers, T. W. L. Sanford, M.E. Cuneo Sandia, J.J. Ramirez, Robert R. Peterson, V. Harper-Slaboszewicz, K.R. Prestwich, R.L. Engelstad, Thomas Alan Mehlhorn, Mohamed E. Sawan, David Lester Hanson, M.J. Clauser, Edward G. Lovell, Craig L. Olson, L.J. Lorence, H.Y. Khater, Gregory A. Moses
Publikováno v:
Fusion Technology. 19:664-668
The Laboratory Microfusion Facility (LMF) is being planned to develop high-grain, high-yield (200 MJ-1000 MJ) ICF targets for applications to nuclear weapons effects simulation, thermonuclear weapons physics, and energy production. It is expected tha