![]() Our preliminary result shows that the 3D CFDTD PIC method could provide an alternative modeling tool for gyrotron research and design. FDTD Maxwellsolver This paper describes Meep, a popular free implementation of the nite-difference time-domain (FDTD) method for simulating electromagnetism. In this work, a conformal finite-difference time-domain (CFDTD) method is proposed to simulate a gyrotron cavity and a particle-in-cell (PIC) algorithm is used to describe a gyro electron beam. A parallel version of FDTD Plus executable is available to. The name of the FDTD software package is FDTD Plus. allow group members to post feedback on the software. The purpose of this Wiki is to document the software package. Our preliminary result shows that the 3D CFDTD PIC method could provide an alternative modeling tool for gyrotron research and design.ĪB - Modeling a gyrotron cavity in 3D and timedomain is very challenging due to the open-end features of cavity structure and higher-order mode excitation employed to achieve high efficiency. This is a Wiki for a finite-difference time-domain (FDTD) simulation software package written in C++ and developed by Sunil Sandhu of Fan Group at Stanford University. N2 - Modeling a gyrotron cavity in 3D and timedomain is very challenging due to the open-end features of cavity structure and higher-order mode excitation employed to achieve high efficiency. A python script is passed the name of the C code as an argument and executes bash commands to compile the code, execute it, import the datafile that was generated, and plot or animate it. T1 - Modeling a gyrotron cavity using a 3D CFDTD PIC method (c) FDTD simulation showing the mass sensitivity of the device plotted as a function of the number of functionalized holes. ![]()
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