Accelerator Components
All Articles
The simulation of the wake field effect in a collimator can be performed using CST PARTICLE STUDIO™ (CST PS). Wake field effects are an important aspect in the design process of such linear collider components.
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A multi-stage depressed collector for the "Rijnhuizen" Fusion Free-Electron Maser (FEM) is simulated with CST PARTICLE STUDIO™. The results are reproduced with permission of Pulsar Physics. See also M.J. de Loos, S.B. van der Geer, Pulsar Physics, Nucl. Instr. and Meth. in Phys. Res. B, Vol 139, 1997.
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This article shows how the wake field solver of CST PARTICLE STUDIO™ can be used to simulate a beam position monitor in the pick-up mode. The used beam position monitor is a quarter wavelength electrode similar to the one used in the Electron Storage Ring (ESR) of the Gesellschaft für Schwerionenforschung (GSI) Darmstadt.
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CST MICROWAVE STUDIO® enables the simulation of periodic eigenmode problems such as Travelling Wave Tubes(TWT). The group velocity and phase dispersion characteristics can be extracted as well as the Pierce Impedance.
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This application has been succesfully simulated using the powerful Eigenmode Solver in CST MICROWAVE STUDIO® with the aid of the Modal Analysis Module.
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This article shows the simulation of a klystron output resonator. The simulation was performed using the Particle in Cell (PIC) code of CST PARTICLE STUDIO™. The PIC code is embedded in the transient solver of CST MICROWAVE STUDIO® and benefits therefore from a mature environment.
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The pierce type gun example demonstrates the analysis of an electrically large gun configuration using CST PARTICLE STUDIO™
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