Optical Clock Technologies Enabling Advanced GNSS

2020 European Navigation Conference (ENC) Pub Date : 2020-11-23 DOI:10.23919/ENC48637.2020.9317452
T. Schuldt, M. Gohlke, M. Oswald, J. Sanjuan, T. Wegehaupt, Tim Blomberg, Jan Wüst, Ludwig Blümel, V. Gualani, K. Abich, C. Braxmaier
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Abstract

Future GNSS architectures, such as the proposed Kepler system, foresee optical technologies. Optical frequency references in combination with optical inter-satellite links can improve satellite navigation with respect to intra-system synchronization, accuracy of orbit determination and system monitoring and integrity. We present the current status of our work on optical frequency references based on molecular iodine and on optical resonators. Several setups have been realized with respect to applications in space, being the basis for the Kepler system.
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实现高级GNSS的光时钟技术
未来的GNSS架构,如拟议的开普勒系统,预见到光学技术。光频率参考与星间光链路相结合,可以提高卫星导航系统内同步、定轨精度、系统监测和完整性。本文介绍了基于分子碘的光频率参考和光谐振器的研究现状。在空间应用方面已经实现了几个设置,作为开普勒系统的基础。
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2020 European Navigation Conference (ENC)
2020 European Navigation Conference (ENC)
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