Numerical Simulations of a Post-Hole Convolute Driven by High Power Magnetically Insulated Transmission Lines: Analysis of Current Loss in Steady-State and Time-Dependent Operating Modes
IEEE International Pulsed Power Conference(2013)
Key words
anodes,cathodes,ion emission,load flow,numerical analysis,power transmission lines,3D particle-in-cell simulations,Poynting vector stream lines,Sandia National Laboratories,Z accelerator MITL-convolute,anode structures,anode surfaces,cathode plasma formation,cathode structures,current loss analysis,electron power flow,high power magnetically insulated transmission lines,high-power MITL-convolute systems,ion emission,load impedance,numerical simulations,plasma simulations,post-hole convolute driven,radial magnetically insulated transmission lines,space-charge-limited effects,steady-state dependent operating modes,steady-state simulation models,time-dependent operating modes,time-dependent simulation,time-dependent simulation models,transmission lines,vacuum post-hole convolute,voltage impedance
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