Your search keyword '"Luo, Yong"' showing total 3 results

1. Development of High-Efficiency Gyro-TWT With a Nonuniform Dielectric-Loaded Circuit.

Author

Li, Hao, Wang, Jianxun, Yao, Yelei, and Luo, Yong

Subjects

TRAVELING-wave tubes, SIMULATED annealing, DIELECTRIC materials, GENETIC algorithms, MAGNETRONS, ELECTRON beams

Abstract

This paper presents the development of highly efficient gyrotron traveling-wave tube (gyro-TWT) with a nonuniform dielectric-loaded interaction circuit. The high-quality electron beam has been generated by curved-profile magnetron injection gun (MIG). With regard to the profile optimization, simulated annealing algorithm (SAA) and genetic algorithm (GA) are applied. An electron beam with a pitch factor of 1.6 and low-axial velocity spread of 0.9182% have been obtained. The parametric sensitivity is discussed in detail. A nonuniform dielectric-loaded circuit has been employed to suppress both global oscillations and local oscillations. Different thicknesses of dielectric materials have been manufactured and measured, demonstrating the circuit loss of oscillation modes that are enough for stable operation. The interaction circuit is analyzed under the guidance of nonlinear self-consistent theory and particle-in-cell (PIC) codes. The tube achieves a saturated peak output power of 36.24 kW at 93 GHz, corresponding to a saturated gain of 54 dB and a maximum efficiency of 45.3% within a 3-dB saturated bandwidth of 5 GHz. [ABSTRACT FROM AUTHOR]

Published

2019

2. Magnetron Injection Gun Design for Multifrequency Band Operations.

Author

Dong, Kun, Luo, Yong, Jiang, Wei, Fu, Hao, and Wang, Shafei

Subjects

*MAGNETRONS, *TRIODES, *GYROTRONS, *GENETIC algorithms, *THERMAL analysis

Abstract

In this paper, a novel triode-type magnetron injection gun (MIG) with three emitters designed for gyrotron traveling wave amplifiers has been presented. This MIG can be operated in Ku/Ka/Q single band or Ku-Ka/Ka-Q dual band. The optimization of the MIG is accomplished by a multiobjective genetic algorithm method. It is anticipated that this MIG possesses an axial velocity spread of <5% in all the operating frequency bands. The results of sensitivity study show that this MIG can work stably within reasonable parametric windows. Velocity spreads considering cathode surface roughness and initial thermal temperature are analyzed. Cathode configuration with heat insulation chambers is introduced to cut off the thermal flow among the emitters. Thermal analysis has been performed. [ABSTRACT FROM AUTHOR]

Published

2016

3. Genetic Algorithm-Based Shape Optimization of Modulating Anode for Magnetron Injection Gun With Low Velocity Spread.

Author

Jiang, Wei, Luo, Yong, Yan, Ran, and Wang, Shafei

Subjects

*ELECTRON beams, *GENETIC algorithms, *MAGNETRONS, *MAGNETIC fields, *THERMAL analysis

Abstract

The magnetron injection gun (MIG) is an important component in the gyro-traveling wave tube (gyro-TWT). The electron velocity spread induced to the mismatch of the electric and magnetic fields influences the performance of gyro-TWT. To improve electron beam quality, we designed a modulating anode with curved geometry. And the multi-objective genetic algorithm was employed to optimize the curved geometry. An electron beam with a velocity ratio of 1.05 and low transverse velocity spread of 0.31% in a MIG for a Q-band gyro-TWT is obtained. Compared with the previous design with a transverse velocity spread of 1.17%, the electron beam performance got improved. And the thermal analysis and parametric sensitivity were done. The curved MIG can stably provide an electron beam with a transverse spread lower than 0.8%. [ABSTRACT FROM AUTHOR]

Published

2015