| 氢原子频标的小型化 |
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| 引用本文: | 刘铁新,翟造成,高俊法.氢原子频标的小型化[J].天文学进展,2001,19(1):1-8. |
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| 作者姓名: | 刘铁新 翟造成 高俊法 |
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| 作者单位: | 1. 中国科学院上海天文台
2. 中国科学院陕西天文台 |
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| 摘 要: | 小型化是目前氢钟的发展方向之一,氢钟的小型化主要是谐振腔的改进,它的结构尺寸决定了氢钟的最小尺寸和重量,目前要用的小型腔主要有电极负载腔,磁控管腔,介质负载腔和TE111腔,新型的谐振腔虽然减小了体积减轻的重量,但量由于它本身已经很难满中立起振条件,所以在伺服电路上也不同于主动型氢钟,根据电路原理的不同,将小型化的氢钟分为反馈振荡型和被动型,反馈振荡型氢钟使激射器工作在反馈振荡状态,通过正反馈维持激射器振荡,被动型氢钟的激射器工作在振荡阈值之下,其作用与揩振放大器相似。
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| 关 键 词: | 氢钟 小型化 谐振腔 反馈振荡型 被动型 原子钟 激射器 |
| 修稿时间: | 2000年3月3日 |
Subcompact Hydrogen Clocks |
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| Liu Tiexin,Zhai Zaocheng,Gao Junfa.Subcompact Hydrogen Clocks[J].Progress In Astronomy,2001,19(1):1-8. |
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| Authors: | Liu Tiexin Zhai Zaocheng Gao Junfa |
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| Abstract: | Subcompact hydrogen clocks are developed in different institutes in the world. Different compact microwave cavities are used in order to reduce the size and weight, comparing to which of conventional hydrogen clocks. Electrode-loaded resonant cavity, magnetronic cavity, dielectricloaded cavity and TE111-mode cavity are often used in the subcompact hydrogen clocks at present, which will lead to failure of resonant condition. Two approaches in compact hydrogen clock design are presented. One design, the Q-enhanced maser oscillator, employs a hydrogen resonance to sustain oscillation in a microwave cavity which quality factor is enhanced electronically. The other design, the passive maser, uses the atomic resonance as a narrow bandpass amplifier. |
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| Keywords: | hydrogen maser: subcompact-microwave cavity-Q-enhanced maser oscillator- passive maser |
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