Abstract
Effective high current (5-20 kA) and low energy (tens of keV) electrons beam transportation is possible only with almost complete charging neutralization. It is also necessary to use quite high current neutralization for elimination beam self-pinching effect. The research is based on the self-consistent mathematical model that takes into account beam and plasma particles dynamic, current and charge neutralization of electron beam and examines the transportation of electron beam into a chamber with low-pressure plasma in magnetic field. A numerical study was conducted using particle in cell (PIC) method. The study was performed with various system parameters: rise time and magnitude of the beam current, gas pressure and plasma density and geometry of the system. Regularities of local virtual cathode field generated by the beam in the plasma channel, as well as ranges of parameters that let transportation beam with minimal losses, depending on the external magnetic field were determined through a series of numerical studies. In addition, the assessment of the impact of the plasma ion mobility during the transition period and during steady beam was performed.
Highlights
Growing interest in application-oriented use of low-energy high-current electron beams (LHEB) is predetermined by their unique opportunities for high energy density transportation at rather long distances without essential losses, and effective transmission of this energy to object of influence
The purpose of this work is to determine the optimal parameters for LHEB transportation
This paper describes mathematical model, equations and results of numerical research of LHEB transportation efficiency in the pipe filled with plasma in the external magnetic field in depending on system parameters
Summary
Growing interest in application-oriented use of low-energy high-current electron beams (LHEB) is predetermined by their unique opportunities for high energy density transportation at rather long distances without essential losses, and effective transmission of this energy to object of influence. Self-magnetic field can cause beam pinching, lowering efficiency of transportation.
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