论文工作为进一步设计集成光学陀螺半有源环形谐振腔做好了准备。
Work in this dissertation makes a good foundation for further designing the half-active ring resonators for integrated-optic gyros.
为实现高精度集成光学陀螺,在谐振腔中进行铒掺杂,形成半有源环形谐振腔是可行路线之一。
To realizing high accuracy integrated optic gyros, one of feasible methods is to dope erbium in the resonator and make a half-active ring resonator.
过曝光技术对线宽稳定度要求较高的器件,比如具有螺线波导的集成光学陀螺的制作有较重要价值。
The overexposure technique is valuable for fabrication of devices with stabilized linewidth such as integrated optical gyroscope with spiral waveguide.
光波导环形谐振腔是谐振型集成光学陀螺的核心敏感部件,其清晰度决定集成光学陀螺的测量精度。
The optical waveguide ring resonator is the key sensing unit of the resonator integrated-optic gyro. Its finesse determines the measuring accuracy of the gyro.
使用玻璃基离子交换工艺制作的大半径无源环谐振器可作为惯性旋转传感器、波长传感器、温度传感器、声波传感器和光学陀螺等,具有重要的应用价值。
The passive rings on glass with big radius fabricated by ion exchange can be used as inertial sensors, wavelength sensors, temperature sensors, sound-wave sensors, optical gyroscope and so on.
这种双轴dsp- 4000陀螺将被集成在Rafael遥控武器站(RWS),提供关键的光学和武器稳定功能,以提高遥控武器站的准确性和有效性。
The dual-axis DSP-4000 FOG will be integrated within Rafael's Remote weapon Station (RWS), providing critical optical and weapon stabilization capabilities to increase RWS accuracy and effectiveness.
该样品能满足集成光学光纤陀螺芯片等的需要。
This sample can be used in chip of integrated optics for fibre optical gyroscope and so on.
在光纤陀螺中采用了多功能集成光学芯片后,可以大大简化光纤陀螺系统的结构,缩小光纤陀螺的体积。
The structures can be simplified and the volumes can be reduced when integrated optic chips are used in fiber optic gyroscopes.
分支是集成光学中的重要器件单元,广泛应用于调制器,光开关,光分路器的器件中,尤其是作为中高精度光纤陀螺系统的核心器件。
Y branches is important in the integrated optical devices unit, it is widely used in modulator, optical switching, optical splitter devices, especially in high-precision FOG.
文中讨论了速率偏频激光陀螺在系统中的精确标定方法,指出该方法需要特殊的转台设备,目前尚无法满足,因此提出了一种结合光学方法测量陀螺安装误差角。
This paper discusses the RLG calibration method, and points out that the precise calibration of the rate biased RLG need special equipment that is not available at present.
光纤陀螺中的一些器件如相位调制器和光学开关、消光器甚至光波导谐振腔都可以集成在一个多功能集成光学芯片上。
Devices such as phase modulators, optic switches and even optic waveguide resonators can be integrated on a multi functional integrated optic chip.
光纤陀螺中的一些器件如相位调制器和光学开关、消光器甚至光波导谐振腔都可以集成在一个多功能集成光学芯片上。
Devices such as phase modulators, optic switches and even optic waveguide resonators can be integrated on a multi functional integrated optic chip.
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