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W. J. Podbielniak M. Pérard A. G. Peterkin Jr. S. W. Ferris und L. M. Ellis 《Fresenius' Journal of Analytical Chemistry》1933,95(1-3):63-64
Ohne Zusammenfassung 相似文献
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The effect of pulsed electric fields on biological cells:experiments and applications 总被引:1,自引:0,他引:1
Schoenbach K.H. Peterkin F.E. Alden R.W. III Beebe S.J. 《IEEE transactions on plasma science. IEEE Nuclear and Plasma Sciences Society》1997,25(2):284-292
The effect of pulsed electric fields with amplitudes in the range of 100 V/cm-100 kV/cm on bacteria and aquatic nuisance species has been explored. The pulse duration was so short that heating of the biological matter could be neglected. The electrical energy required for lysing of bacteria, or stunning of aquatic species, decreases when the pulse duration is reduced. For lysing of Eschericia coli, this tendency has been proven to hold for pulsewidths as short as 60 ns. For macroorganisms, however, it was found that for pulsewidths of less than 5 μs, the tendency is reversed: the energy required to affect the macroorganisms increases again. This minimum in energy, or maximum in efficiency, respectively, can be understood by taking the time required for electrical charging of the cell membrane into account. Applications of the pulsed electric field technique (PEFT) are in biofouling prevention, debacterialization of liquids, and in the field of medicine. A series of field tests on biofouling prevention in a cooling system with untreated water as coolant has demonstrated the economic feasibility of the electro-technology 相似文献
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Peterkin R.E. Jr. Degnan J.H. Hussey T.W. Roderick N.F. Turchi P.J. 《IEEE transactions on plasma science. IEEE Nuclear and Plasma Sciences Society》1993,21(5):522-528
Experiments to form and accelerate compact toroid (CT) plasmas have been performed on the 0.4-MJ Shiva Star fast capacitor bank at Phillips Laboratory. Theoretical investigations of employing a CT as a very fast opening switch are reported. A particular axisymmetric, geometrically complex switch design is studied with the help of 2-1/2-dimensional magnetohydrodynamic computer simulations. This design, called a magnetically-confined-plasma opening switch (McPOS), accumulates magnetic energy in an inductive store. Because of its intrinsic stability, the switch can conduct current for ten or more microseconds and can open in less than 100 ns-substantially less than the risetime of the capacitively produced electric current. A long conduction time compact torus plasma opening switch 相似文献
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Shumlak U. Hussey T.W. Peterkin R.E. Jr. 《IEEE transactions on plasma science. IEEE Nuclear and Plasma Sciences Society》1995,23(1):83-88
The magnetic field enhancement is calculated for a magnetically imploded liner system that has flux excluding radial vanes. For the thinnest vane tested the field is found to concentrate at the vanes to a maximum value of almost three times its ambient value with a corresponding temperature increase well above the melting point. These values are calculated using the three-dimensional magnetohydrodgnamic code, MACH3. Calculations are performed for three vane thicknesses, and the vane movement is estimated. A bound is established on the design specification of the vanes based the disruption of current delivery to the liner due to the movement of the vanes 相似文献
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Electromagnetic implosion of spherical liner 总被引:1,自引:0,他引:1
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Turchi P.J. Peterkin R.E. Jr 《IEEE transactions on plasma science. IEEE Nuclear and Plasma Sciences Society》1998,26(5):1485-1491
Electron-beam diodes driven by fast-rising, high-voltage pulses often operate with cold cathodes for which the presence of a plasma adjacent to the cathode surface is essential to obtain adequate electron emission. A consequence of such surface plasma, however, is closure of the interelectrode gap by plasma motion. Resistive heating of the plasma competes with work performed in expanding the plasma and heat transfer to the cold-cathode boundary. The resulting closure speed is calculated, using an MHD code, and found to agree well with results of experiments using organic-cloth cathodes at 35 kV. Computed plasma speeds are typically 8-12 km/s, and are relatively insensitive to the applied voltage. Gap closure due to the plasma motion calculated numerically corresponds to estimates based on impedance collapse in the experiments 相似文献
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Degnan J.H. Taccetti J.M. Cavazos T. Clark D. Coffey S.K. Faehl R.J. Frese M.H. Fulton D. Gueits J.C. Gale D. Hussey T.W. Intrator T.P. Kirkpatrick R.C. Kiuttu G.H. Lehr F.M. Letterio J.D. Lindemuth I. McCullough W.F. Moses R. Peterkin R.E. Jr. Reinovsky R.E. Roderick N.F. Ruden E.L. Shlachter J.S. Schoenberg K.F. Siemon R.E. Sommars W. Turchi P.J. Wurden G.A. Wysocki F. 《IEEE transactions on plasma science. IEEE Nuclear and Plasma Sciences Society》2001,29(1):93-98
The design and first successful demonstration of an imploding solid liner with height to diameter ratio, radial convergence, and uniformity suitable for compressing a field reversed configuration is discussed. Radiographs indicated a very symmetric implosion with no instability growth, with ~13x radial compression of the inner liner surface prior to impacting a central measurement unit. The implosion kinetic energy was 1.5 megajoules, 34% of the capacitor stored energy of 4.4 megajoules 相似文献
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Stoudt D.C. Richardson M.A. Peterkin F.E. 《IEEE transactions on plasma science. IEEE Nuclear and Plasma Sciences Society》1997,25(2):131-137
The processes of persistent photoconductivity followed by photoquenching have been demonstrated at megawatt power levels in copper-compensated, silicon-doped, semi-insulating gallium arsenide. These processes allow a photoconductive switch to be developed that can be closed by the application of one laser pulse (λ=1.06 μm) and opened by the application of a second laser pulse with a wavelength equal to twice that of the first laser (λ=2.13 μm). This switch is called the bistable optically controlled semiconductor switch (BOSS). The opening phase of the BOSS requires a sufficient concentration of recombination centers (RC) in the material for opening to occur in the subnanosecond regime. These RC's are generated in the bulk GaAs material by fast-neutron irradiation (~1 MeV). Neutron-irradiated BOSS devices have been opened against a rising average electric field of about 36 kV/cm (18 kV) in a time less than 1 ns while operating at a repetition rate, within a two-pulse burst, of about 1 GHz. The ability to modify the frequency content of the electrical pulses, by varying the time separation, is demonstrated. Results demonstrating the operation of two BOSS devices imbedded in a frequency-agile RF source configuration are also discussed 相似文献