Zobrazeno 1 - 10 of 24 pro vyhledávání: '"G. F. Kiuttu"'
1
Compression of Compact Toroids in Conical-Coaxial Geometry
Autor: G. Bird, S. K. Coffey, J.D. Graham, M.E. Dearborn, G. J. Marklin, D.G. Gale, M. Scott, G. F. Kiuttu, T. J. Englert, J. H. Holmes, E. L. Ruden, S. W. Seiler, James H. Degnan, F. M. Lehr, Norman F. Roderick, Peter J. Turchi, G. P. Baca, S.E. Englert, R.E. Peterkin, David E. Bell, A.L. Chesley, T.W. Hussey, B. W. Mullins, D. W. Price, Melissa Douglas, K. E. Hackett, W. Sommars
Publikováno v: Fusion Technology. 27:107-114
Experiments to form, compress, and accelerate compact toroids are described. A 1-m-diam, two-stage, puffed gas, magnetic field embedded coaxial plasma gun is used. Emphasis is on conical compression. Discharges were in the several mega-ampere, few mi
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::3b4dd26d77e4026d379c00ec258d205e
https://doi.org/10.13182/fst95-a30367
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2
Boundary element method for solution of 3-D magnetic fields
Autor: G. F. Kiuttu, J. A. Ingber, M. S. Ingber, B. T. Smith
Publikováno v: 2011 IEEE Pulsed Power Conference.
The boundary element method (BEM) has been established as an effective means for magnetostatic analysis. Direct BEM formulations for the magnetic vector potential have been developed over the past 20 years. There is a less well known direct boundary
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::7764116883d5c3126dc2e719f3061b0c
https://doi.org/10.1109/ppc.2011.6191461
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3
3-D magnetic field and vector potential calculations using the Boundary Element Method
Autor: M. S. Ingber, G. F. Kiuttu, B. T. Smith, J. A. Ingber
Publikováno v: 2009 IEEE International Conference on Plasma Science - Abstracts.
We have successfully developed a generalized-geometry Boundary Element Method (BEM) technique for calculating vacuum magnetic fields and vector potentials in three dimensions by solving the boundary integral equations associated with the vector Lapla
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::a60f0e86943077ca579ba2a490b23a64
https://doi.org/10.1109/plasma.2009.5227359
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4
Development and Testing of a High-Gain Magnetic Flux Compression Generator
Autor: J. V. Parker, T. C. Cavazos, C. E. Roth, J. H. Degnan, F. M. Lehr, G. F. Kiuttu, S. K. Coffey
Publikováno v: 2006 IEEE International Conference on Magagauss Magnetic Field Generation and Related Topics.
The performance of a high-gain FCG is often limited by internal electrical breakdown caused by the high voltage generated during operation. Modern diagnostic techniques provide the opportunity to diagnose internal breakdowns so that generator designs
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::2d07e9d7cf0b7fc6f2619cb433b7ba8b
https://doi.org/10.1109/megaguss.2006.4530687
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8
The study of variable mass liner acceleration in order to create the source of soft X-rays
Autor: J.L. Kammerdiener, A.I. Kuzyaev, T.J. Englert, Irvin R. Lindemuth, S.D. Kuznetsov, Carl Ekdahl, G. F. Kiuttu, R.C. Kirkpatirck, V.A. Demidov, A.M. Bujko, A.B. Mezhevov, D.A. Poling, A.I. Startsev, V.N. Sofronov, W.D. Zerwekh, S.M. Younger, V.N. Mokhov, Robert E. Reinovsky, S.F. Garanin, L.R. Veeser, V.N. Kostyukov, V.B. Yakubov, V.K. Chernyshev, B.G. Anderson, G.G. Ivanova, P.J. Rodriguez, Y.N. Gorbachev, A.A. Petrukhin
Publikováno v: 12th International Conference on High-Power Particle Beams. BEAMS'98. Proceedings (Cat. No.98EX103).
High power pulsed energy sources are required to produce a large amount of X-rays. The leading role in creation of ultra-high power stationary machines belongs to the USA national laboratories. VNIIEF has made much progress in creation of ultra-high
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::43fd51f0413933d824f6f7dee7fdf086
https://doi.org/10.1109/beams.1998.816938
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9
Adiabatic, Shock, and Plastic Work Heating of Solids and the Cylinder Test
Autor: E. L. Ruden, G. F. Kiuttu
Solids subjected to high pressures, shocks, and/or deformation experience an increase in internal energy density and temperature due to adiabatic compression, shock heating, and plastic work heating, respectively. Analytic approximations are derived
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::37bdd8273327d0a91c42508992c73321
https://doi.org/10.21236/ada387035
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10
Formation, Compression, and Acceleration of Magnetized Plasmas
Autor: T. J. Englert, E. L. Ruden, D. W. Price, J. Havranek, U. Shumlak, F. M. Lehr, R. E. Peterkin, G. F. Kiuttu, A.W. Molvik, Harry McLean, C.A. Outten, C.W. Hartman, James H. Hammer, G. J. Marklin, J. L. Eddleman, D.G. Gale, J. J. Watrous, S.E. Englert, T.W. Hussey, James H. Degnan, Michael H. Frese, C.D. Holmberg, J.D. Graham, A.L. Chesley, Norman F. Roderick, Sean K. Coffey, D. E. Bell, P.J. Turchi
Publikováno v: Current Trends in International Fusion Research ISBN: 9781461376903
Compression and acceleration of magnetized plasmas is relevant to fusion for two reasons. Certain types of magnetized plasmas can be compressed and accelerated without fluid instability growth. These are magnetized plasmas rings or compact toroids1,2
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::d729482acf039f239b49a2364a09e589
https://doi.org/10.1007/978-1-4615-5867-5_13
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