Investigation of nonlinear self-consistent interaction progress between microwave and electron beam in RF cavity;

Particle simulation and optimization design of X-band quasi-periodic RF cavity for high power microwave source;

Investigation of quasi-periodic RF cavity for high power microwave source;

Preliminary study of wave-chaotic scattering in microwave cavity

We have modified the structure of slotted tube microwave cavity to improve S/N of rubidium frequency standard.

In this article,we introduced a kind of high cavity-Q TE_(011) model microwave cavity,which can be used in the Space-Qualified RAFS.

Basing on Maxwell equations, we have used the Finite Integration Theory (FIT) and calculated electromagnetic field space distribution of microwave reactor in fixed space distribution of plasma, and distribution of plasma in fixed space distribution of electromagnetic field space distribution.

Based on the finite integration theory (FIT),electromagnetic field for a given spatial distribution of the plasma in rotational symmetric microwave reactor has been simulated.

The analysis and design for the microwave cavity in laser-cooled Rb fountain clock developed by ourselves were presented and the basic parameters of the microwave cavity developed were designed in this paper.

According to the modulation of mi-crowave cavity on different input signals,this paper judges the relationship between the frequency of input signal and the reso-nant frequency of microwave cavity through amplitude discrimination and phase demodulation,then,we use MCU to control the output frequency of VCO to .