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In this article the lumped circuit and the finite difference time domain algorithm for lossy magnetized ferrites is presented. The proposed algorithm is verified for a longitudinal and transverse case.
The paper describes a new approach to electromagnetic analysis of magnetized plasma using finite difference time domain (FDTD) method. An equivalent lumped circuit describing an FDTD cell filled with plasma is developed and applied in the analysis. Such a method is proved more effective than previously reported methods. The new approach is verified on a canonical example of known analytical solution.
We are elaborating 3D computer model of conventional cesium beam tube. The atomic source, selection magnets and detector are modeled in Matlab environment. Model of the source describe intensity and angular distribution of atoms for multichannel array nozzle geometry. Conventional “two-wire” model of A and B magnets has been assumed. Microwave Ramsey type cavity has been modeled by using QuickWave-3D...
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