Simulation and optimization of dummy loads for wideband microwave calorimeters

机译：宽带微波热量计的模拟负载的仿真和优化

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A high resolution two-dimensional finite difference in time domain method (FDTD) with uniaxial perfectly matched layers (UPMLs) was applied to analysis of a three-layer wide-aperture microwave calorimeter. The method was shown to be an efficient tool for calculating the optimum geometric parameters of a semi-infinite (periodic in one coordinate) model of the dummy load. Using the time-domain results, the frequency-dependent transmission and reflection coefficients of the load were calculated for normal incidence of a monochromatic plane wave at operating frequencies range of 1-12 GHz (L-, S-, C- and X-bands) for the first time. The results of calorimeter structure optimization are very useful for manufacturing real liquid-filled experimental calorimeters.

机译：具有单轴完美匹配层（UPML）的高分辨率时域二维有限差分法（FDTD）被用于分析三层宽孔径微波量热仪。该方法被证明是一种有效的工具，可用于计算虚拟负载的半无限（一个坐标周期内为周期性）模型的最佳几何参数。使用时域结果，计算单色平面波在1-12 GHz（L波段，S波段，C波段和X波段）工作频率范围内的法线入射的频率依赖的传输和反射系数）。量热计结构优化的结果对于制造真实的充满液体的实验量热仪非常有用。

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来源
《2014 IEEE 28th Convention of Electrical amp; Electronics Engineers in Israel》|2014年|1-5|共5页
会议地点 Eilat(IL)
作者
Kozhevnikov Vasily Yu; Klimov Alexey /I/.; Kozyrev Artem V.;
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作者单位

Inst. of High Current Electron., Tomsk, Russia;

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原文格式 PDF
正文语种 eng
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关键词
calorimeters; finite difference time-domain analysis; microwave devices; optimisation; 2D FDTD method; UPML; calorimeter structure optimization; dummy load optimization; dummy load simulation; finite difference time domain; frequency 1 GHz to 12 GHz; frequency dependent reflection coefficients; frequency dependent transmission coefficients; monochromatic plane wave; optimum geometric parameters calculation; semi-infinite model; uniaxial perfectly matched layer; wideband microwave calorimeter; Dielectrics; Finite d;

机译：量热计;时域有限差分分析;微波设备;优化;二维FDTD方法; UPML;量热器结构优化;虚拟负载优化;虚拟负载模拟;时域有限差分; 1 GHz至12 GHz频率;频率相关的反射系数;频率相依透射系数;单色平面波;最佳几何参数计算;半无限模型;单轴完美匹配层;宽带热量计;电介质;有限差分;

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3. Simulation of ICRF antenna plasma loading by a dielectric dummy load. Application to the ITER case [J] . A. Messiaen, P. Dumortier, V. Kyrytsya, Fusion Engineering and Design . 2011,第6a8期

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4. Simulation and optimization of dummy loads for wideband microwave calorimeters [C] . Kozhevnikov Vasily Yu, Klimov Alexey /I/., Kozyrev Artem V. IEEE Convention of Electrical and Electronics Engineers in Israel . 2014

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5. High Efficiency Microwave Amplifiers and SiC Varactors Optimized for Dynamic Load Modulation [D] . Andersson, Christer. 2013

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6. Design and optimization of an ultra-wideband and compact microwave antenna for radiometric monitoring of brain temperature [O] . Dario B. Rodrigues, Paolo F. Maccarini, Sara Salahi, -1

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7. Experience On The High-power Sic Microwave Dummy-load Using Sic Absorber [O] . Matsumoto, H, Iino, Y, Fujiwara, C, 1999

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Simulation and optimization of dummy loads for wideband microwave calorimeters

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