Many-particle models and short-pulse amplification in traveling wave tubes
K Aliane, Y Elskens, F Andre… - IEEE Transactions on …, 2021 - ieeexplore.ieee.org
Many-particle time domain methods are rising alternatives to particle-in-cell (PIC) or
frequency methods to simulate the wave–beam interactions in traveling wave tubes (TWTs) …
frequency methods to simulate the wave–beam interactions in traveling wave tubes (TWTs) …
Reflections in Traveling Wave Tubes: Simulation Using the 1-D Time-Domain Hamiltonian Model DIMOHA With Experimental Validation
K Aliane, F André, Y Elskens - IEEE Transactions on Electron …, 2024 - ieeexplore.ieee.org
DIMOHA is a many-particle time-domain model offering a good balance between exhaustive
physics and time efficiency. We apply this model to study the effects of defects and …
physics and time efficiency. We apply this model to study the effects of defects and …
Simulating Defects and Reflections in a Traveling Wave Tube with DIMOHA
K Aliane, F André, Y Elskens - 2022 23rd International Vacuum …, 2022 - ieeexplore.ieee.org
DIMOHA is a many-particle time domain model for traveling wave tube simulations,
previously presented at IVEC conferences. We apply this model to study the effects of …
previously presented at IVEC conferences. We apply this model to study the effects of …
[PDF][PDF] Using a traveling wave tube to analyze nonlinear effects in plasmas
MC de Sousa, Y Elskens, F Doveil, IL Caldas - nonlineaire.univ-lille1.fr
Traveling wave tubes [1](TWTs) are electron devices in which an electron beam interacts
with electromagnetic waves in a vacuum environment. Industrial TWTs range from 2 to 30 …
with electromagnetic waves in a vacuum environment. Industrial TWTs range from 2 to 30 …