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大口径射电望远镜超宽带接收机技术发展
Ultra-wideband receiver technology development for radio astronomical large aperture telescope

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陈卯蒸   刘奇 *   马军   王娜  
文摘 新疆奇台拟建的110 m全可动射电望远镜(QiTai Radio Telescope, QTT),在引力波探测、黑洞发现、恒星形成、星系起源等基础科学研究领域将发挥重要作用,并可发展应用于深空探测,如探月工程与火星和金星探测.满足众多科学需求需装备超宽带、多波束、高灵敏度接收机系统,而大口径射电望远镜接收机技术面临众多挑战.本文论述了国内外射电天文领域大口径射电望远镜接收机技术发展,包含超宽带馈源/极化器、超宽带低噪声放大器、多波束接收机技术的发展与现状,分析了接收机研制过程中的难点与挑战.基于QTT科学目标和技术进展,给出了初期的接收机系统配置方案,分析了接收机的馈电形式、关键器件研制与选型、关键问题与难点.
其他语种文摘 Xinjiang 110 m radio telescope (QiTai Telescope, QTT) will play an important role in the field of fundamental science, such as gravitational wave detection, black holes, star formation and galaxy origin, and also be applied to deep space explorations, for example, Lunar Exploration Program and Exploration of Mars and Venus. However, many ultra-wideband, multi-beam receivers will be applied for various science goals of QTT, and we will be faced with numerous significant challenges. In this paper, we have presented the technical progress of ultra-wideband receiver for large aperture telescope, including the ultra-wideband feeds/Ortho-Mode Transducer (OMT), Low Noise Amplifier (LNA) and multi-beam receiver. Meanwhile, key techniques and challenges were analyzed for receiver research and fabrication. Based on the science requirements and the technique development, we have proposed the preliminary scheme for QTT receiver system, and discussed about the feed forms, primary devices research and key coming difficulties and challenges.
来源 中国科学. 物理学 , 力学, 天文学,2017,47(5):059504-1-059504-13 【核心库】
DOI 10.1360/SSPMA2016-00505
关键词 射电望远镜 ; 超宽带 ; 接收机技术 ; 多波束技术
地址

中国科学院新疆天文台, 中国科学院射电天文重点实验室, 乌鲁木齐, 830011

语种 中文
文献类型 综述型
ISSN 1674-7275
学科 机械、仪表工业
基金 国家973计划 ;  国家自然科学基金
文献收藏号 CSCD:5967526

参考文献 共 67 共4页

1.  Coutts G M. Octave bandwidth orthomode transducers for the expanded very large array. IEEE Trans Antennas Propagat,2011,59:1910-1917 CSCD被引 5    
2.  Ott J. Pushing the Limits of the EVLA: An Enhancement Program for the Next Decade. Technical Report, Electronics and Computer Science,2010 CSCD被引 1    
3.  Chung M H. A next generation multi-beam focal plane array receiver of trao for 86-115 GHz band. J Astron Space Sci,2006,23:19-28 CSCD被引 2    
4.  吴盛殷. 射电天文中焦面阵或多波束馈源的应用. 天文学进展,2001,19:421-435 CSCD被引 8    
5.  王娜. 新疆奇台110米射电望远镜. 中国科学: 物理学力学天文学,2014,44:783-794 CSCD被引 66    
6.  Thomas B M. Design of wide-band corrugated conical horns for Cassegrain antennas. IEEE Trans Antennas Propagat,1986,34:750-757 CSCD被引 6    
7.  Thomas B M. A wide-band prime-focus horn for low-noise receiver applications. IEEE Trans Antennas Propagat,1990,38:1898-1900 CSCD被引 2    
8.  Olsson R. The eleven antenna: A compact low-profile decade bandwidth dual polarized feed for reflector antennas. IEEE Trans Antennas Propagat,2006,54:368-375 CSCD被引 6    
9.  Karandikar Y B. Optimization of 200-800 MHz Eleven feed for GMRT. Proceedings of Antennas and Propagation,2007 CSCD被引 1    
10.  Beaudoin C. Development of a compact eleven feed cryostat for the patriot 12-m antenna system. Proceedings of the Sixth General Meeting of the International VLBI Service for Geodesy and Astrometry,2010:420-424 CSCD被引 1    
11.  Yang J. Preliminary design of eleven feed for SKA band 1. Proceedings of General Assembly and Scientific Symposium (URSI GASS), 2014 XXXIth URSI,2014 CSCD被引 1    
12.  Ivashina M. Optimization of the 0.35-1.05 GHz quad-ridged flared horn and eleven feeds for the square kilometer array baseline design. Proceedings of Electromagnetics in Advanced Applications (ICEAA),2014:513-516 CSCD被引 1    
13.  Dunning A. An ultra-wideband dielectrically loaded quad-ridged feed horn for radio astronomy. Proceedings of Antennas and Propagation in Wireless Communications (APWC),2015 CSCD被引 1    
14.  Dybdal R B. Defocusing loss for a log periodic-fed reflector. IEEE Trans Antennas Propagat,1985,33:809-812 CSCD被引 1    
15.  Engargiola G. Tapered Microstrip Balun for ATA Feed Development. Technical Report,2001 CSCD被引 1    
16.  Uher J. Waveguide Components for Antenna Feed Systems: Theory and CAD,1993 CSCD被引 5    
17.  Aramaki Y. Ultra-thin broadband OMT with turnstile junction. Proceedings of 2003 IEEE MTT-S International Microwave Symposium Digest,1993:47-50 CSCD被引 1    
18.  Groppi C E. Broadband finline ortho-mode transducer forthe 750-1150 GHz band. Proceedings of the 16th International Symposium on Space Terahertz Technology,2005:513-518 CSCD被引 1    
19.  Srikanth S. A compact full waveguide band turnstile junction orthomode transducer. Proceedings of General Assembly and Scientific Symposium, 2011 XXXth URSI,2011 CSCD被引 1    
20.  Boifot A M. Simple and broadband orthomode transducer. Proc Inst Elect Eng,1990,137:396-400 CSCD被引 6    
引证文献 4

1 马军 QTT超宽带多波束信号接收与处理系统 中国科学. 物理学, 力学, 天文学,2019,49(9):099502
CSCD被引 4

2 王凯 基于斩波轮技术的K波段接收机噪声校准研究 天文学报,2020,61(1):1-1-1-9
CSCD被引 1

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