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µÚһƪ£º(SCIºÍEI) ÌâÃû£ºDesign and microfabrication of folded waveguide circuit for THz TWT ÆÚ¿¯£ºJournal of Infrared and Millimeter Waves ¾íÆÚ£º2014, 33(1) µÚ¶þƪ(SCI ºÍEI) ÌâÃû£ºFast design and cold-circuit properties simulation for the slow wave structure of a 0.14 THz broadband folded waveguide traveling wave tube ÆÚ¿¯£ºJOURNAL OF INFRARED MILLIMETER AND TERAHERTZ WAVES ¾íÆÚ£º2010(08) µÚÈýƪ£¨EI) ÌâÃû£º220 GHz folded waveguide slow-wave structure ÆÚ¿¯£ºHigh Power Laser and Particle Beams ¾íÆÚ£º2011, 23(6) |
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1 SCI: Design and microfabrication of folded waveguide circuit for THz TWT ×÷Õß:Wang, YJ (Wang Ya-Jun)[ 1,2 ] ; Chen, Z (Chen Zhang)[ 1,2 ] ; Cheng, YL (Cheng Yan-Lin)[ 1 ] ; Shi, ZG (Shi Zhi-Gui)[ 1 ] JOURNAL OF INFRARED AND MILLIMETER WAVES ¾í: 33 ÆÚ: 1 Ò³: 62-67 DOI: 10.3724/SP.J.1010.2014.00062 ³ö°æÄê: FEB 2014 ²é¿´ÆÚ¿¯ÐÅÏ¢ ÕªÒª A simple method based on the physical characteristics to get the main parameters of folded waveg-uide traveling wave tube (TWT) circuit is presented. Providing the operating frequency and beam voltage, the authors can obtain the initial structural parameters of the FWTWT. A D-band folded waveguide circuit was used to verify this method. The cold characteristics including dispersion relation and interaction impedance were analyzed. The simulation results show good agreement with their theory formula analysis. The folded waveguide slow-wave structure has flat dispersion relation, fairly high interaction impedance about 3. 5 ohms at the center frequency of 220 GHz. The large signal performance of 27 mm (50 periods) folded waveguide circuit was predicted. Simulations show the nonlinear gain is 13. 5 dB at 220 GHz where beam voltage and current are 20. 6 kV and 15 mA, respectively. A saturated 3 dB bandwidth is 11 GHz (213 224 GHz). The Microfabrication process to produce the folded waveguide circuits was discussed. The first example of the folded waveguide circuit was fabricated by UV-LIGA process. ¹Ø¼ü´Ê ×÷Õ߹ؼü´Ê:TWT; folded waveguide; simulation; UV-LIGA; terahertz radiation KeyWords Plus:VACUUM ELECTRON DEVICES; HIGH-POWER ×÷ÕßÐÅÏ¢ ͨѶ×÷ÕßµØÖ·: Wang, YJ (ͨѶ×÷Õß) [ÏÔʾÔöÇ¿×éÖ¯ÐÅÏ¢µÄÃû³Æ] China Acad Engn Phys, Inst Elect Engn, Mianyang 621900, Sichuan, Peoples R China. µØÖ·: [ÏÔʾÔöÇ¿×éÖ¯ÐÅÏ¢µÄÃû³Æ] [ 1 ] China Acad Engn Phys, Inst Elect Engn, Mianyang 621900, Sichuan, Peoples R China [ÏÔʾÔöÇ¿×éÖ¯ÐÅÏ¢µÄÃû³Æ] [ 2 ] China Acad Engn Phys, Terahertz Res Ctr, Mianyang 621900, Sichuan, Peoples R China µç×ÓÓʼþµØÖ·:yjwang01@163.com »ù½ð×ÊÖúÖÂл »ù½ð×ÊÖú»ú¹¹ ÊÚȨºÅ Advance Research Program of China Academy of Engineering Physics ²é¿´»ù½ð×ÊÖúÐÅÏ¢ ³ö°æÉÌ SCIENCE PRESS, 16 DONGHUANGCHENGGEN NORTH ST, BEIJING 100717, PEOPLES R CHINA Àà±ð / ·ÖÀà Ñо¿·½Ïò:Optics Web of Science Àà±ð:Optics ÎÄÏ×ÐÅÏ¢ ÎÄÏ×ÀàÐÍ:Article ÓïÖÖ:English Èë²ØºÅ: WOS:000332438600010 ISSN: 1001-9014 ÆÚ¿¯ÐÅÏ¢ Impact Factor (Ó°ÏìÒò×Ó): Journal Citation Reports® ÆäËûÐÅÏ¢ IDS ºÅ: AC3RJ Web of Science ºËÐĺϼ¯ÖÐµÄ "ÒýÓõIJο¼ÎÄÏ×": 18 Web of Science ºËÐĺϼ¯ÖÐµÄ "±»ÒýƵ´Î": 0 EI: Accession number: 20141217481921 Title: Design and microfabrication of folded waveguide circuit for THz TWT Authors: Wang, Ya-Jun1, 2 Email author [email]yjwang01@163.com[/email]; Chen, Zhang1, 2; Cheng, Yan-Lin1; Shi, Zhi-Gui1 Author affiliation: 1 Institute of Electronic Engineering, China Academy of Engineering Physics, Mianyang, Sichuan 621900, China 2 Terahertz Research Center, China Academy of Engineering Physics, Mianyang, Sichuan 621900, China Corresponding author: Wang, Y.-J. ([email]yjwang01@163.com[/email]) Source title: Hongwai Yu Haomibo Xuebao/Journal of Infrared and Millimeter Waves Abbreviated source title: Hongwai Yu Haomibo Xuebao Volume: 33 Issue: 1 Issue date: February 2014 Publication year: 2014 Pages: 62-67 Language: English ISSN: 10019014 CODEN: HHXUEZ Document type: Journal article (JA) Publisher: Chinese Optical Society Abstract: A simple method based on the physical characteristics to get the main parameters of folded waveguide traveling wave tube (TWT) circuit is presented. Providing the operating frequency and beam voltage, the authors can obtain the initial structural parameters of the FWTWT. A D-band folded waveguide circuit was used to verify this method. The cold characteristics including dispersion relation and interaction impedance were analyzed. The simulation results show good agreement with their theory formula analysis. The folded waveguide slow-wave structure has flat dispersion relation, fairly high interaction impedance about 3.5 ohms at the center frequency of 220 GHz. The large signal performance of 27 mm (50 periods) folded waveguide circuit was predicted. Simulations show the nonlinear gain is 13.5 dB at 220 GHz where beam voltage and current are 20.6 kV and 15 mA, respectively. A saturated 3 dB bandwidth is 11 GHz (213~224 GHz). The Microfabrication process to produce the folded waveguide circuits was discussed. The first example of the folded waveguide circuit was fabricated by UV-LIGA process. Number of references: 18 Main heading: Waveguides Controlled terms: Dispersions - Microanalysis - Microfabrication - Quantum theory - Slow wave structures Uncontrolled terms: Folded waveguides - Simulation - Terahertz radiation - TWT - UV LIGA Classification code: 604 Metal Cutting and Machining - 714.3 Waveguides - 801 Chemistry - 931.4 Quantum Theory; Quantum Mechanics - 951 Materials Science DOI: 10.3724/SP.J.1010.2014.00062 Database: Compendex Compilation and indexing terms, © 2015 Elsevier Inc. |
2Â¥2015-05-25 22:51:56
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3Â¥2015-05-25 22:54:42
Paulwolf
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3. SCI: δÊÕ¼ EI: Accession number: 20113014176646 |
4Â¥2015-05-25 22:57:06
