Abstract
The sheet electron beam (SEB), for which is the low current density and large current, is highly attractive in the region of millimeter wave and terahertz vacuum electronic devices (VEDs). A uniform permanent magnet (UPM) electronic optical system (EOS) driven by a SEB for 220 GHz traveling wave tube (TWT) is designed in present work, in which the voltage and current for SEB is 17 kV and 0.3 A, respectively. For obtaining the stable high transmission rate EOS, the characteristics of SEB in UPM EOS are studied, including the emittance, orbital angle, and beam trajectories, which are discussed through the CST simulation. The results show that the emittances in the x-direction are varied from 0.003 to 0.016 mm rad and in y-direction are various from 1 × 10−4 to 3 × 10−4 mm rad, respectively, keeping below than 2.5 × 10−4 mm rad during transmission, which guarantees the stability of SEB in y-direction. For the design of complete EOS, the normal rectangular collector is used, in which the SEB is uniformed scattering.
Highlights
The sheet electron beam (SEB), for which is the low current density and large current, is highly attractive in the region of millimeter wave and terahertz vacuum electronic devices (VEDs)
The SEB driving beam-wave interaction system of VED are widely appeared many literatures, Baig et al.[6] analyzed the beam-wave interaction of 0.22 THz traveling wave tube (TWT) driven by SEB with a help of CST simulation, and the high frequency characteristics are studied with cold measurements
The transmission characteristics of SEB in uniform permanent magnet (UPM) are analyzed in fourth section, the rectangular collector for SEB is designed in fifth section and some conclusions are obtained in sixth section
Summary
The sheet electron beam (SEB), for which is the low current density and large current, is highly attractive in the region of millimeter wave and terahertz vacuum electronic devices (VEDs). A uniform permanent magnet (UPM) electronic optical system (EOS) driven by a SEB for 220 GHz traveling wave tube (TWT) is designed in present work, in which the voltage and current for SEB is 17 kV and 0.3 A, respectively. For obtaining the stable high transmission rate EOS, the characteristics of SEB in UPM EOS are studied, including the emittance, orbital angle, and beam trajectories, which are discussed through the CST simulation. The SEB is attracted and widely used to improve the output power in high frequency VED, such as the TWT, backward wave oscillator (BWO), and extended interaction klystron (EIK), etc. We design a UPM EOS driven by SEB, in which the profile of UPM and the transmission characteristics of SEB are studied, including the emittance, orbital angle trajectories, section size and current are analyzed. The transmission characteristics of SEB in UPM are analyzed in fourth section, the rectangular collector for SEB is designed in fifth section and some conclusions are obtained in sixth section
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