[1] C M Armstrong,et al.The truth about terahertz[J].IEEE Spectrum,2012,49(9):36-41.
[2] 廖复疆,等.真空电子技术——信息化武器装备的心脏(第2版)[M].北京:国防工业出版社,2008.
[3] T K Woodward.What to do when there's no fiber:the DARPA 100Gb/s RF backbone program[A].Optical Fiber Communication Conference[C].USA:Optical Society of America,2017.1-2.
[4] C Paoloni,et al.TWEETHER project for W-band wireless networks[A].9th UK-Europe-China Workshop on Millimetre Waves and Terahertz Technologies (UCMMT)[C].Qingdao,China:IEEE,2016.42-43.
[5] C Paoloni,et al.Technology for D-band/G-band ultra capacity layer[A].2019 European Conference on Networks and Communications (EuCNC)[C].Valencia,Spain:IEEE,2019.209-213.
[6] R Kowalczky,et al.High efficiency E-band MPM for communications applications[A].2016 IEEE International Vacuum Electronics Conference (IVEC)[C].Monterey,CA:IEEE,2016.1-2.
[7] Zi Z,et al.A 70W 81~86GHz E-band CW traveling wave tube[A].2019 IEEE International Vacuum Electronics Conference (IVEC)[C].Busan,South Korea:IEEE,2019.1-2.
[8] Communications & Power Industries:company information:microwave power products division:coupled cavity TWTs-CW products W-band[EB/OL].http://www.cpii.com, 2015.
[9] Hu Y,et al.Experiment of a 50W W-band TWT with tapering FWG circuit[A].2016 IEEE International Vacuum Electronics Conference (IVEC)[C].Monterey,CA:IEEE,2016.1-2.
[10] A J Theiss,et al.High-average-power W-band TWT development[J].IEEE Transactions on Plasma Science.2010,38(6):1239-1243.
[11] R Kowalczyk,et al.A 100 Watt W-Band MPM TWT[A].2013 IEEE International Vacuum Electronics Conference (IVEC)[C].Paris,France:IEEE,2013.1-2.
[12] Zhang X,et al.Design and experimental study of 250W W-band pulsed TWT with 8GHz bandwidth[J].IEEE Transactions on Electron Devices.2017,64(12):5151-5156.
[13] 张瑞峰.百瓦级W波段折叠波导脉冲行波管[A].中国电子学会真空电子学分会第二十一届学术年会论文集[C].甘肃:中国电子学会真空电子学分会,2018.
[14] 雷文强,蒋艺,等.D波段7W连续波折叠波导行波管的研制[J].太赫兹科学与电子信息学报,2016,14(02):171-174,185.
[15] M Field,et al.Development of a 100W 200GHz high bandwidth mm-wave amplifier[J].IEEE Transactions on Electron Devices,2018,65(6):2122-2128.
[16] C M Armstrong,et al.A compact extremely high frequency MPM power amplifier[J].IEEE Transactions on Electron Devices,2018,65(6):2183-2188.
[17] M A Basten,et al.233GHz high power amplifier development at Northrop Grumman[A].2016 IEEE International Vacuum Electronics Conference (IVEC)[C].Monterey,CA:IEEE,2016.1-2.
[18] Lei W,et al.A G-band wideband CW folded waveguide TWT[A].2019 IEEE International Vacuum Electronics Conference (IVEC)[C].Busan,South Korea:IEEE,2019.1-3.
[19] 冯进军,蔡军,等.近太赫兹频段线性注真空器件的研究[J].太赫兹科学与电子信息学报,2015,13(05):684-690,706.
[20] E Hammerstad,et al.Accurate models for microstrip computer-aided design[A].IEEE MTT-S International Microwave Symposium Digest[C].USA:IEEE,1980.407-409
[21] G Diana,et al.Nanoscale surface roughness effects on THz vacuum electron device performance[J].IEEE Transactions on Nanotechnology,2016,15(1):85-93.
[22] C D Joye,et al.Demonstration of a high power,wideband 220-GHz traveling wave amplifier fabricated by UV-LIGA[J].IEEE Transactions on Electron Devices,2014,61(6):1672-1678.
[23] J C Tucek,et al.Operation of a compact 1.03THz power amplifier[A].2016 IEEE International Vacuum Electronics Conference (IVEC)[C].Monterey,CA:IEEE,2016.1-2.
[24] Li H,et al.Microfabrication of W-band folded waveguide slow wave structure using DRIE and UV-LIGA technology[A].2011 IEEE International Vacuum Electronics Conference (IVEC)[C].Bangalore,India:IEEE,2011.379-380.
[25] Li H,et al.UV-LIGA microfabrication for high frequency structures of a 220GHz TWT amplifier[A].2016 IEEE International Vacuum Electronics Conference (IVEC)[C].Monterey,CA:IEEE,2016.1-3.
[26] Li H,et al.Fabrication of 340GHz folded waveguides using KMPR photoresist[J].IEEE Electron Device Letters,2013,34(3):462-464.
[27] Du Y,et al.Experimental investigation of an ultrawide bandwidth W-band pulsed traveling-wave tube with microfabricated folded-waveguide circuits[J].IEEE Transactions on Plasma Science,2019,47(1):219-225.
[28] Cai J,Feng J,et al.Folded waveguide slow wave structure with modified circular bends[J].IEEE Transactions on Electron Devices,2014,61(10):3534-3538.
[29] 刘世硕,蔡军,等.折叠波导行波管PIC模拟中的相位分析方法研究[J].微波学报,2016,32(04):73-77.
[30] 杜英华,胡银富,等.金刚石在太赫兹电真空器件中的应用[J].太赫兹科学与电子信息学报,2013,11(03):350-354.
[31] Ding M,et al.Development of an extremely thin-diamond window for terahertz traveling wave tubes[J].Diamond and Related Materials,2017,79:173-178.
[32] 廖复疆,蔡军,等.发展新一代真空电子器件[J].真空电子技术,2016,6:31-35. |
