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Multiple Diodes Quasi-Optical Oscillater

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Abstract

This paper presents quasi-optics techniques, millimeter techniques and a global optimization method etc techniques. It is a structure of quasi-optics power combiner, that includes a spherical reflection, that the radius of the curvature is R and another one is a hybrid reflector that is called input reflector. The space of the both reflectors is LL. The monolithic source-array is made up of 25 Gunn diodes that are mounted of parallel brass bars that have low thermal resistance. And the bars are fixed on the inner plane surface of the hybrid reflector. The hybrid reflector made up of a plane and a spherical, that the radius of the curvature are R. It is designed that higher fundamental mode power, larger fractional power of fundamental mode power and more combining efficiency of the quasi-optics power combiner.

This paper describes an algorithm, which can determine the global optima of the power combiner of solid-state millimeter wave resonator. The global optimization method can determine a neighborhood of the global optima of an objective function and an estimation of the global optima. In the quasi-optical resonator, the objective functions are the fundamental mode power, the fractional power of fundamental mode and the combining efficiency respectively.

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References

  1. JAMES W. MINK, Quasi-Optical Power Combining of Solid-State Millimeter-Wave Sources, IEEE TRANSECTIONS ON MICROWAVETHEORY AND TECHNIQUES, MTT.34,NO. 2, FEBRUARY 1986.

  2. Hui-zhen Li, Xiang-wen Chen et al, MMILLIMETER WAVE SOURCE IN THE RECTANGULAR WAVEGUIDE CAVITY, INTERNATIONAL JOURNAL OF INFRARED AND MILLIMETER WAVES, Vol. 18No. 10, 1997. 10.

  3. Hui-zhen Li and Xiang-wen Chen, GLOBAL OPTIMIZATION METHOD IN MILLIMETER WAVE COMBINER, Int. J. of Infrared and MM Wave Vol. 18,No. 10, October 1997..

  4. Hui-zhen Li et al, MMW SOURCE CAD IN QUASI-OPTICAL RESONATOR, Int. J. of Infrared, and MM Wave, Vol. 20,No. 5, May, 1999.

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Authors and Affiliations

  1. Institute of Information Technique Science, Department of Electron Information Technique Science, Nankai University, Tianjin, People Republic of China

    Hui-zhen Li

  2. Tianjin Education Committee Research, People Republic of China

    Xiang-wen Chen

  3. Microsoft Research, China

    Si-we Lyu

Authors
  1. Hui-zhen Li
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  2. Xiang-wen Chen
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  3. Si-we Lyu
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Li, Hz., Chen, Xw. & Lyu, Sw. Multiple Diodes Quasi-Optical Oscillater. International Journal of Infrared and Millimeter Waves 22, 905–915 (2001). https://doi.org/10.1023/A:1014970415702

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  • DOI: https://doi.org/10.1023/A:1014970415702

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