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The MICHELLE two-dimensional (2D) and three-dimensional (3D) steady-state and time-domain particle-in-cell (PIC) code has been employed successfully by industry, national laboratories, and academia and has been used to design and analyze a wide variety of devices, including multistage depressed collectors, gridded guns, multibeam guns, annular-beam guns, sheet-beam guns, beam-transport sections, and...
Summary form only given. The MICHELLE two-dimensional (2D) and three-dimensional (3D) electrostatic steady-state and time-domain particle-in-cell (PIC) code has been employed successfully by industry, national laboratories, and academia and has been used to design and analyze a wide variety of devices, including multistage depressed collectors, gridded guns, multibeam guns, annular-beam guns, sheet-beam...
Summary form only given. Three-dimensional (3D) electron guns, focusing channels, and collectors are the trend to improved device performance, and accurate modeling of these devices leads to reductions in development time and costs. This includes gridded guns, multibeam guns, sheet beam guns, quadrupole focusing, multibeam collectors, and asymmetrical collectors. The new MICHELLE1 2D/3D steady-state...
Summary form only given. MICHELLE is a new 2D/3D steady-state and time-domain particle-in-cell (PIC) code that employs electrostatic and now magnetostatic finite-element field solvers. Over the past several years the code has been employed successfully by industry to design and analyze a wide variety of devices that include multistage depressed collectors, gridded guns, multibeam guns, annular-beam...
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