共查询到20条相似文献,搜索用时 906 毫秒
1.
从半径渐变波导的耦合波方程出发,利用龙格-库塔法进行优化数值迭代,得到在3 mm波段,TE03-TE02, TE02-TE01高效率模式变换器的设计参数。通过优化程序,设计出了6周期TE03-TE02和3周期TE02-TE01模式变换器优化尺寸。利用CST微波工作室电磁仿真软件对结构尺寸进行优化仿真,仿真结果与优化程序计算结果基本一致。以此数据设计中心频率94 GHz的TE03-TE02,TE02-TE01模式变换器功率转换效率可以达到98.5%以上,90%功率转换的绝对带宽分别达到3.5和7.0 GHz以上,优于设计要求。 相似文献
2.
3.
提出了一种新型同轴插板式模式变换器,可以实现同轴TEM到圆波导TE11模式的变换。介绍了这种模式变换器的工作原理:即通过在同轴波导中沿轴向插入金属板,将同轴TEM模变换成扇形截面波导TE11模,进而利用不同扇形截面波导中的相移改变电场分布的轴对称性,在同轴波导中形成同轴TE11模,最后将同轴TE11模转换为圆波导TE11模式。基于这一原理设计了一个中心频率为3.8GHz的同轴TEM-圆波导TE11模式变换器,并进行了数值模拟。模拟结果表明:这种模式变换器可以承受高功率,中心频率上转换效率为98.5%,转换效率大于90%的带宽超过10%,在3.5~4.1GHz的频率范围内反射损耗低于0.3dB。 相似文献
4.
5.
利用光电子能谱及密度泛函理论计算对TiGen-(n=7~12)团簇的几何结构及电子特性等进行了系统研究. 对于TiGen-负离子及中性TiGen,在n=8时出现了钛原子半内嵌的船型结构;在n=9~11时,新增的锗原子加盖到这种船型结构上,逐步形成钛原子完全内嵌的结构. TiGe12- 团簇具有一种钛原子内嵌的变形六棱柱结构. 自然布居分析结果显示,对于n=8~12的TiGen-/0 团簇,随着内嵌结构的形成,有电子从锗原子转移到钛原子,说明其电荷转移方式与结构演变密切相关. 相似文献
6.
利用密度泛函理论和非平衡格林函数方法, 本文对小尺寸团簇Tan(B3N3H6)n+1 (n ≤ 4)的磁性和量子输运性质进行了系统的研究. 计算结果表明, 此类体系采用三明治结构作为其基态并且具有较高的稳定性. 体系的磁矩随团簇尺寸的增大而线性增大. 当把Tan(B3N3H6)n+1团簇耦合到Au电极上时, 形成的Au-Tan(B3N3H6)n+1-Au体系在有限偏压下展示出了较强的自旋过滤能力, 因而可以被看做是一类新型的低维自旋过滤器. 相似文献
7.
本文采用基于自旋极化的密度泛函理论系统研究了ConCm± (n=1-5; m=1,2)团簇的几何结构和电子结构特性. 将ConC± (n=2-5)团簇中的一个Co替换为C原子, 个体的基态几何结构发生明显变化; 在ConC2± (n=1-5)团簇的生长序列中, 发现从n=3开始团簇中的两个C原子有彼此分离分布的趋势, 我们分析, 这是Co金属能够维持单壁碳纳米管(SCNTs)保持开口生长, 成为非常有效的一种催化剂的重要原因. 同时, 将ConC± (n=2-5)团簇中添加一个Co原子后系统的总磁矩出现大幅下降的趋势, 但仍保持奇偶交替的规律. 通过比较中性及带电的ConC以及ConC2 (n=1-5)团簇的碎裂能, 本工作发现: 由实验获取的SCNTs应均为带正电的体系, 这一结论与已有的实验模型拟合得很好. 相似文献
8.
9.
10.
应用密度泛函理论(DFT)中B3LYP方法在6-311+G(d)水平上计算并分析了 NaBn(n=1—9)团簇的几何结构及电子性质. 同时, 讨论了团簇的平均结合能、能级间隙、二阶能量差分和极化率.研究表明:NaBn(n=1—9) 团簇基态绝大多数为平面构型. 能级间隙和二阶能量差分结果表明NaB3与NaB5是幻数团簇. 另外, 对平均线性极化率和极化率的各向异性不变量研究表明基态NaBn团簇的电子结构随B原子的增加虽然趋于紧凑, 但尚未形成特定的堆积方式. 相似文献
11.
12.
Design of a TE10-TE30 Rectangular Mode Converter for 4.6GHz LHCD Launcher in the Experimental Advanced Superconducting Tokamak 下载免费PDF全文
A compact rectangular TE10-TE30 mode converter is developed for the lower hybrid current drive (LHCD) launcher on the Experimental Advanced Superconducting Tokamak (EAST) at 4.6 GHz. The converter with periodic width perturbation aims to divide the microwave power into three sub-waveguides in the poloidal direction. We present the design and numerical calculation of the mode converter. Calculations are performed on the ripple wall converter by codes based on numerical solving the coupled-mode differential equations and on the simulation of the High Frequency Structure Simulator (HFSS) package. The resulting conversion efficiency from TE10 mode to TE30 mode exceeds 95% within the bandwidth from 4.56 GHz to 4.64 GHz, and the return loss of the oversized transducer can be considerably decreased to 0.068% by means of a capacitive button embedded in the E-plane of the waveguide. 相似文献
13.
Yin Li Chongqing Jiao Jirun Luo 《International Journal of Infrared and Millimeter Waves》2007,28(12):1155-1160
A mode converter with multi-waveguide output for millimeter wave gyro-device applications is proposed in this article, which
is used to convert the TE01 circular waveguide mode into the TE10 rectangular waveguide mode. Computer simulations with Ansoft HFSS code show that the energy transmission coefficient of larger
than 95.96% may be reached in the frequency range from 34.094 GHz to 35.8 GHz (a bandwidth of 1.706 GHz) at a VSWR of lower
than 1.5 for the input operating mode. 相似文献
14.
15.
B. W. Stallard J. A. Byers M. A. Makowski 《International Journal of Infrared and Millimeter Waves》1990,11(9):1011-1032
A novel device, MAGICTRAC, is described for efficient conversion at millimeter wavelengths of the TE
m,n
whispering-gallery mode into a linearly polarized, free-space Gaussian-like beam. MAGICTRAC uses a mode-converting waveguide taper and three mirror optics, one of which incorporates a twist reflector to linearly polarize the output beam. An example design is presented for the TE15,2 mode at 140 GHz with a calculated efficiency of 96%. Related possible applications include (1) installation of the MAGICTRAC within the vacuum envelope of a gyrotron to separarate the spent e-beam from the generated rf, (2) generation of a whispering-gallery mode by injection of a Gaussian-like beam into the output end, and (3) conversion of TE
m,n
modes into TE0n
modes for low-loss transmission in smooth-wall waveguide.Work performed by LLNL for USDOE under contract W-7405 ENG-48. 相似文献
16.
Shinzo Muto Tomoyasu Sakagami Yoshihiko Sakane Akira Namazue Eisuke Nihei Yasuhiro Koike 《Optical Review》1996,3(2):120-123
A novel TE-TM mode converter using optically active polymer: poly-1-menthylmethacrylate (PMtMA) was studied theoretically and experimentally. In a three-layered slab waveguide consisting of the PMtMA core layer on a fused quartz substrate, a low-loss TE0-TM0 mode conversion with an efficiency of 60 to 70% was easily obtained for the first time at a wavelength of 441.6 nm. The method to achieve a phase-matched operation of this polymer TE-TM mode converter was also discussed. 相似文献
17.
18.
19.
We propose a modification of the iterative method for synthesis of waveguide mode converters, which allows obtaining various
elements of microwave transmission lines with a wide operating frequency band. The efficiency of the synthesis is illustrated
by the calculated waveguide components. This method makes it possible to synthesize converters with significantly improved
characteristics, e.g., a converter of the TM0,1 mode to the rotating TE3,1 mode, a converter of the TM0,1 to the TE1,1 mode, a converter of the TE1,1 mode of a smooth waveguide to the HE1,1 mode of a corrugated waveguide, and a waveguide 90° bend for the TE1,1 mode.
__________
Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Radiofizika, Vol. 50, No. 9, pp. 793–799, September 2007. 相似文献