论文信息 - Electromagnetic power and momentum in N-body Hamiltonian approach to wave-particle dynamics in a periodic structure

Electromagnetic power and momentum in N-body Hamiltonian approach to wave-particle dynamics in a periodic structure

To model momentum exchange in nonlinear wave-particle interaction, as in amplification devices like traveling-wave tubes, we use an $N$-body self-consistent hamiltonian description based on Kuznetsov's discrete model, and we provide new formulations for the electromagnetic power and the conserved momentum. This approach leads to fast and accurate numerical simulations in time domain and in one dimensional space.

[1] E. Hairer,et al. Geometric Numerical Integration: Structure Preserving Algorithms for Ordinary Differential Equations , 2004 .

[2] Pierre Waller. Modélisation numérique de l'interaction et diagnostic expérimental du faisceau d'électrons dans un Tube à Ondes Progressives spatial , 1999 .

[3] Microscopic Dynamics of Plasmas and Chaos , 2002 .

[4] N. S. Barnett,et al. Private communication , 1969 .

[5] D. Zarzoso,et al. Basic microscopic plasma physics from N-body mechanics , 2018, Reviews of Modern Plasma Physics.

[6] T. M. Antonsen,et al. CHRISTINE: A Multifrequency Parametric Simulation Code for Traveling Wave Tube Amplifiers. , 1997 .

[7] Y. Elskens,et al. Electron-wave momentum exchange and time domain simulations applied to traveling wave tubes , 2017, 2017 Eighteenth International Vacuum Electronics Conference (IVEC).

[8] Y. Elskens,et al. On frequency and time domain models of traveling wave tubes , 2016, 1607.00779.