Weak-Light Phase-Locking Time Delay Interferometry with Optical Frequency Combs

doi:10.3390/s22197349

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	Weak-Light Phase-Locking Time Delay Interferometry with Optical Frequency Combs
	M. Y. Xu; H. Z. Wu; Y. R. Liang; D. Luo; P. P. Wang; Y. J. Tan and C. G. Shao
刊名	Sensors
	2022
卷号	22 期号:19 页码:14
DOI	10.3390/s22197349
英文摘要	In the future space-borne gravitational wave (GW) detector, the optical transponder scheme, i.e., the phase-locking scheme, will be utilized so as to maintain the signal-to-noise ratio (SNR). In this case, the whole constellation will share one common laser equivalently, which enables the considerable simplification of time delay interferometry (TDI) combinations. Recently, and remarkably, the unique combination of TDI and optical frequency comb (OFC) has shown a bright prospect for the future space-borne missions. When the laser frequency noise and the clock noise are synchronized using OFC as the bridge, the data streams will be reasonably simplified. However, in the optical transponder scheme, the weak-light phase-locking (WLPL) loops could bring additional noises. In this work, we analyze the phase-locking scheme with OFC and transfer characteristics of the noises including the WLPL noise. We show that the WLPL noise can be efficiently reduced by using the specific TDI combination, and the cooperation of phase-locking and frequency combs can greatly simplify the post-processing.
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语种	英语
内容类型	期刊论文
源URL	[http://ir.ciomp.ac.cn/handle/181722/67243]
专题	中国科学院长春光学精密机械与物理研究所
推荐引用方式 GB/T 7714	M. Y. Xu,H. Z. Wu,Y. R. Liang,et al. Weak-Light Phase-Locking Time Delay Interferometry with Optical Frequency Combs[J]. Sensors,2022,22(19):14.
APA	M. Y. Xu,H. Z. Wu,Y. R. Liang,D. Luo,P. P. Wang,&Y. J. Tan and C. G. Shao.(2022).Weak-Light Phase-Locking Time Delay Interferometry with Optical Frequency Combs.Sensors,22(19),14.
MLA	M. Y. Xu,et al."Weak-Light Phase-Locking Time Delay Interferometry with Optical Frequency Combs".Sensors 22.19(2022):14.