太赫兹科学与电子信息学报
太赫玆科學與電子信息學報
태혁자과학여전자신식학보
Information and Electronic Engineering
2015年
2期
184-188,202
,共6页
颜胜美%苏伟%徐翱%王亚军%陈樟%向伟%金大志
顏勝美%囌偉%徐翱%王亞軍%陳樟%嚮偉%金大誌
안성미%소위%서고%왕아군%진장%향위%금대지
基模%多注%折叠波导%太赫兹行波管
基模%多註%摺疊波導%太赫玆行波管
기모%다주%절첩파도%태혁자행파관
fundamental mode%multi-beam%folded waveguide%terahertz traveling-wave tube
为解决太赫兹(THz)行波管工作电流过小、输出功率低等问题,提出了基模多注工作模式的折叠波导行波管(TWT)。首先,获得了基模多注折叠波导色散特性;然后,对基模多注折叠波导的传输特性进行了模拟计算;最后,完成了0.14 THz 基模多注折叠波导行波管的注波互作用特性分析。电子注参数为12 mA,15.75 kV时,获得的3 dB带宽为25 GHz(128 GHz~153 GHz),最大增益为33.61 dB,最大峰值功率为23 W;电子注参数为30 mA,15.75 kV 时,在0.14 THz 处获得了38 dB 增益,最大脉冲输出功率为63.1 W。该方法能够有效增大 THz 行波管的工作电流,提高互作用增益及效率、3 dB 带宽、输出功率;在增益相同时,基模多注行波管可以做得更短、更紧凑。
為解決太赫玆(THz)行波管工作電流過小、輸齣功率低等問題,提齣瞭基模多註工作模式的摺疊波導行波管(TWT)。首先,穫得瞭基模多註摺疊波導色散特性;然後,對基模多註摺疊波導的傳輸特性進行瞭模擬計算;最後,完成瞭0.14 THz 基模多註摺疊波導行波管的註波互作用特性分析。電子註參數為12 mA,15.75 kV時,穫得的3 dB帶寬為25 GHz(128 GHz~153 GHz),最大增益為33.61 dB,最大峰值功率為23 W;電子註參數為30 mA,15.75 kV 時,在0.14 THz 處穫得瞭38 dB 增益,最大脈遲輸齣功率為63.1 W。該方法能夠有效增大 THz 行波管的工作電流,提高互作用增益及效率、3 dB 帶寬、輸齣功率;在增益相同時,基模多註行波管可以做得更短、更緊湊。
위해결태혁자(THz)행파관공작전류과소、수출공솔저등문제,제출료기모다주공작모식적절첩파도행파관(TWT)。수선,획득료기모다주절첩파도색산특성;연후,대기모다주절첩파도적전수특성진행료모의계산;최후,완성료0.14 THz 기모다주절첩파도행파관적주파호작용특성분석。전자주삼수위12 mA,15.75 kV시,획득적3 dB대관위25 GHz(128 GHz~153 GHz),최대증익위33.61 dB,최대봉치공솔위23 W;전자주삼수위30 mA,15.75 kV 시,재0.14 THz 처획득료38 dB 증익,최대맥충수출공솔위63.1 W。해방법능구유효증대 THz 행파관적공작전류,제고호작용증익급효솔、3 dB 대관、수출공솔;재증익상동시,기모다주행파관가이주득경단、경긴주。
To improve the current and output power of terahertz Traveling Wave Tube(TWT), a Fundamental Mode Multi-Beam Folded Waveguide(FMMBFW) TWT scheme is proposed. Firstly, the high frequency characteristic is gained and compared with numerical simulation result. Secondly, the transmission characteristic of 60 periods FMMBFW is analyzed. Lastly, the beam-wave interaction characteristic of 0.14 THz FMMBFW TWT is completed by numerical simulation and theoretical calculation. When the DC current is 12 mA and the voltage is 15.75 kV, the 3 dB band of 0.14 THz FMMBFW TWT is 25 GHz(128 GHz-153 GHz), the maximum gain is 33.61 dB and the maximum output power is 23 W. When the DC current is 30 mA and the voltage is 15.75 kV, the maximum gain is 38 dB and the maximum pulse output power is 63.1 W at 0.14 THz. This method can effectively increase the current of FMMBFW TWT, and the interaction gain, efficiency, 3 dB band, output power can be improved. When the gain is the same, FMMBFW TWT can be fabricated more short and compact.
