Cavity element for resonant micro optical gyroscope

Ford C.; Ramberg R.; Johnson K.; Bergulund W.; Ellerbusch B.; Schermer R.; Gopinath A.

首页> 外文期刊>IEEE Aerospace and Electronic Systems Magazine >Cavity element for resonant micro optical gyroscope

【24h】

Cavity element for resonant micro optical gyroscope

机译：谐振微光学陀螺仪的腔体元件

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Significant strides have been made towards a feasible resonant micro optic gyro (RMOG). Uniquely crucial components have been developed. Experimental measurements, when coupled with theoretical analysis predicts that 1 degree/hour performance can be achieved. Three critical elements required for the successful development have been demonstrated. A high quality trench waveguide has been designed, fabricated and demonstrated to have losses as little as 0.1 dB/cm. The waveguide has been demonstrated to have gain in the 4.0 dB/cm range. Finally, a waveguide laser has been fabricated and has shown nearly enough power to adequately drive an RMOG. Analysis of the measured performance predicts that a 1 degree/hour RMOG can be constructed. The small size and projected ruggedness of the RMOG will be advantageous in high G applications. Other applications, such as man portable guidance systems, where weight and size are critical, may also benefit from RMOG technology

机译：朝着可行的谐振微光学陀螺仪（RMOG）迈出了重要的一步。已经开发出独特的关键组件。与理论分析相结合的实验测量结果表明，可以实现每小时1度的性能。已经证明了成功开发所需的三个关键要素。已经设计，制造并证明了高质量沟槽波导的损耗低至0.1 dB / cm。已经证明波导具有4.0 dB / cm的增益。最终，制造了波导激光器，并显示出几乎足够的功率来充分驱动RMOG。对测得性能的分析预测，可以构建1度/小时的RMOG。 RMOG的小尺寸和坚固耐用性在高G应用中将是有利的。 RMOG技术也可以使重量和尺寸至关重要的其他应用（例如便携式导航系统）受益。

著录项

来源
《IEEE Aerospace and Electronic Systems Magazine》 |2000年第12期|p.33-36|共4页
作者
Ford C.; Ramberg R.; Johnson K.; Bergulund W.; Ellerbusch B.; Schermer R.; Gopinath A.;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类航空;
关键词
gyroscopes; laser cavity resonators; micro-optics; optical planar waveguides; waveguide lasers; cavity element; control loops; high G applications; high quality trench waveguide; man portable guidance systems; planar waveguide; resonant micro optical gyroscope; rugg;

机译：陀螺仪;激光腔谐振器;微光学;光学平面波导;波导激光器;腔元件;控制环路;高G应用;高质量沟槽波导;便携式导向系统;平面波导;谐振微光学陀螺仪;地毯;

相似文献

外文文献
中文文献
专利

1. Cavity element for resonant micro optical gyroscope [J] . Ford C., Ramberg R. IEEE Aerospace and Electronic Systems Magazine . 2000,第12期

机译：谐振微光学陀螺仪的腔体元件
2. Theoretical analyses of resonant frequency shift in anomalous dispersion enhanced resonant optical gyroscopes [J] . Jian Lin, Jiaming Liu, Hao Zhang, Scientific reports. . 2016,第1期

机译：异常色散增强型共振光学陀螺仪中共振频率偏移的理论分析
3. Atomic microwave-to-optical signal transduction via magnetic-field coupling in a resonant microwave cavity [J] . A. Tretiakov, C. A. Potts, T. S. Lee, Applied Physics Letters . 2020,第16期

机译：通过谐振微波腔中的磁场耦合通过磁场耦合的原子微波到光信号转导
4. Cavity element for resonant micro optical gyroscope [C] . Ford, C., Ramberg, . 2000

机译：谐振微光学陀螺仪的腔体元件
5. Low Noise, Low Power Interface Circuits and Systems for High Frequency Resonant Micro-Gyroscopes [D] . Dalal, Milap 2012

机译：高频谐振微陀螺仪的低噪声，低功耗接口电路和系统
6. Theoretical analyses of resonant frequency shift in anomalous dispersion enhanced resonant optical gyroscopes [O] . Jian Lin, Jiaming Liu, Hao Zhang, -1

机译：异常色散增强型共振光学陀螺仪中共振频率偏移的理论分析
7. Design of resonant microcavities: application to optical gyroscopes [O] . Sunada, Satoshi, Harayama, Takahisa 2007

机译：谐振微腔的设计：应用于光学陀螺仪

Cavity element for resonant micro optical gyroscope

摘要

著录项

相似文献

相关主题

期刊订阅