Study of Miniaturized of Spectral Lamp and Physics Package of a Rubidium Frequency Standard; The Investigation of Optical Pumping Devices in Miniaturized~ ( 87) Rb Atomic Frequency Standard 铷原子频标光谱灯与量子系统小型化研究
The Study on Microwave Power Frequency Shift in  ̄( 87) Rb Atomic Frequency Standard and Its Controlling Methods 铷原子频标中微波功率频移的研究及其控制方法
Analyses on the Signal-to-Noise Ratio of the Atomic Discrimination Signal in Rubidium Atomic Frequency Standard 铷原子频标鉴频信号信噪比相关问题分析
The duration of bound-entangled state ( non-distillable) is controlled by the resonant control laser and the detuning of the atomic frequency inside the gap with respect to the band-edge. 束缚纠缠态(不能提纯的纠缠态)在系统中的持续时间由驱动场的拉比频率以及原子能级和光子晶体禁带带边的相对位置决定。
A Temperature Control Circuit with Small Size and Low Power Consumption for CPT Atomic Frequency Standard 一种CPT频标小体积低功耗温控电路的研制
Laser Frequency Stabilization of Coherent Population Trapping Atomic Frequency Standard Realized with Digital Servo 数字伺服实现相干布居囚禁原子频标的激光稳频
In order to get rid of the dependence on other countries and establish self-governed time and frequency standard, the research on atomic frequency standard is imperative under the situation. 为了改变我国时间频率系统对国外的依赖,建立我国独立的时间频率基准,原子频率标准的研制势在必行。
Voltage controlled crystal oscillator ( VCXO) plays an important roll in the atomic frequency standard. 压控晶体振荡器是原子频标的重要组成部分。
Atomic Frequency Standard is the frequency and time benchmark of space technology and time awarding system, directly determining the quality of satellite communications. 原子频标是空间技术和授时系统的频率与时间基准,直接决定了卫星通信的质量。
The frequency multiplier is an important parts for the rubidium atomic frequency standards and its noise is the mostly source of the whole system's noise. 倍频电路是铷原子频标一个重要的部件,其噪声是系统噪声的主要来源之一,在小型化设计中问题更为突出。
In this paper some synthesizer schemes of atomic frequency standards are given. 文中给出了几种原子频率标准的合成器电路方案。
Development of Atomic Frequency Standards and New Progress in Time and Frequency 原子频标的发展和时、频技术新进展
A high-order microwave frequency multiplier is designed by adopting the step recovery diode for a passive rubidium atomic frequency standard. 设计了一种采用阶跃恢复二极管来实现的、用于被动型铷原子频标的微波高次倍频器。
Light shift in a new cavity-cell assembly for rubidium atomic frequency standards 一种新型铷原子频标腔泡系统的光频移研究
The principle of the rubidium atomic frequency standards which have been applied widely to the space technology is introduced. The various factors affecting the performances and reliability of the standards are analysed, and the basic ways to enhance the reliability are discussed. 介绍了广泛使用的星载铷原子频率标准的基本工作原理,分析了影响其可靠性的各种因素,并探讨了提高其可靠性的基本途径。
Analyses failures of XSR type of Rubidium atomic frequency standard used in our factory, and introduces the situation of particular overhaul in detail. 对我厂的频率标准XSR型铷原子频标发生的故障及具体检修情况作了较详细的分析和介绍。
Application of hydrogen atomic frequency standard in VLBI international united testing and analysis on main factors affecting its performance 氢原子频标在VLBI国际联测中的应用及影响其性能的主要因素分析
In the paper it was studied that the frequency synthesizer and multiplier and the phase modulation circuit of the rubidium atomic frequency standards ( RAFS). 本论文重点是研究被动型铷原子频标中的调制电路、频率合成电路和倍频电路。
Looking at its technology development from abroad typical Rubidium atomic frequency standard-carrying satellite 从国外典型星载铷原子频标看其技术发展
The Majorana transition frequency shift in cesium beam atomic frequency standards is theoretically investigated in this paper. 本文对铯原子频标中的Majorana跃迁频移进行理论上的探讨。
Thus this multiplier satisfies the needs of miniature passive rubidium atomic frequency standard. 该倍频器接入铷原子频标后,能实现闭环锁定,符合小型化铷原子频标的要求。
The structure and frequency shift characteristics of a new kind of miniature cavity-cell assembly for rubidium atomic frequency standards ( RAFS) are reported. 介绍一种新的小型铷频标腔泡系统的结构特点和频移特性。
The new method can be used in the measurement of atomic frequency standards and high-stability frequency sources. 这种新方法完全可以用于各种原子频标和高稳定度频率源的测量和比对之中。
This cavity-cell assembly can be used to make a miniaturized rubidium atomic frequency standard with high performance. 利用此腔泡系统可以制成小型化、高性能的铷原子频标。
Analysis and Design of High-Order Microwave Multiplier for Rubidium Atomic Frequency Standard 铷原子频标微波高次倍频器的分析与设计
The uncertainty of the Cs Atomic Frequency Standard System is evaluated as well as the result of measurement of a nanosecond universal counter. 对铯原子频率标准装置不确定度和纳秒通用计数器测量结果的不确定度进行评定。
Miniaturization Research of Rubidium Atomic Frequency Standard 铷原子频率标准的小型化研究
The development of atomic frequency standard is just meeting the requirements of measurement of time and frequency. 原子频标的发展正是为了满足人们对时间频率计量越来越高要求的需要。
The obtained outcomes give a certain theoretical value on the theoretical perfection of resonant cavity loaded with dielectric and the design of resonant cavity in atomic frequency standard. 本文的结论对介质加载谐振腔理论的完善及原子频标中谐振腔的设计具有一定的理论指导价值。
This technological breakthrough overcomes a main obstacle for realizing high performance miniature CPT atomic frequency standard. 该方案为实现高性能微型化CPT原子频标克服了一项重要技术阻碍,可望大幅改善微型CPT原子频标的频率稳定度性能。