ROCK: A Flexible Gyrotron Cavity Simulation Toolkit Using an Accuracy-Improved Time-Dependent Self-Consistent Multimode Interaction Model
Chuanren Wu, Lukas Feuerstein, André Schmidt, S. Illy, M. Thumm, John Jelonnek
Abstract
Abstract Relativistic oscillator calculation kit (ROCK) is a self-consistent time-dependent multimode multi-harmonic code recently developed at KIT to simulate the interaction between electrons and microwaves in gyrotron cavities. Its key features include a flexible software design, the use of the finite element method, the capability for precisely resolving the electron motion, and an enhanced formulation of field excitation. The last two features are essential model differences and are discussed in detail. Preliminary simulation comparisons demonstrate the validity and highlight the potential advantages of the improved model implemented in ROCK.
Topics & Concepts
GyrotronMulti-mode optical fiberClassical electromagnetismComputer scienceStatistical physicsComputational physicsOpticsSimulationPhysicsPower (physics)TelecommunicationsOptical fiberQuantum mechanicsGyrotron and Vacuum Electronics ResearchParticle accelerators and beam dynamicsMagnetic confinement fusion research