Toward a highly stable master laser for the interrogation of SYRTE's Sr and Hg optical lattice clocks

2014 European Frequency and Time Forum (EFTF) Pub Date : 2014-06-23 DOI:10.1109/EFTF.2014.7331558
O. Gobron, K. Predehl, D. Nicolodi, R. Le Targat, Y. Le Coq, A. Ferrier, P. Goldner
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Abstract

We report on the current developments at LNE-SYRTE to realize an ultra-stable laser based on spectral hole burning spectroscopy of rare-earth doped crystals at cryogenic temperature. Our goal is to realize a cw laser with a stability below 10-16, suitable for quantum projection noise limited interrogation of optical lattice clocks after transfer to optical clocks wavelength via an optical frequency comb. Our laser system currently comprises two 1160nm lasers, one referenced to a pre-stabilization cavity and the second offset phase-locked to the first. After frequency doubling, we obtain spectral hole burning patterns in Eu3+:Y2SiO5 near 4K.
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研制高稳定主激光器用于syte的Sr和Hg光学晶格钟的探测
本文报道了lne - syte在低温下基于稀土掺杂晶体的光谱烧孔光谱实现超稳定激光器的最新进展。我们的目标是实现一种稳定度低于10-16的连续波激光器,适用于光晶格钟经过光频梳转换为光钟波长后的量子投影噪声限制询问。我们的激光系统目前包括两个1160nm激光器,一个参考预稳定腔,第二个偏移锁相到第一个。在倍频后,我们得到了Eu3+:Y2SiO5在4K附近的光谱烧孔图。
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2014 European Frequency and Time Forum (EFTF)
2014 European Frequency and Time Forum (EFTF)
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Performances of UTC(OP) based on LNE-SYRTE atomic fountains Towards accurate optical fibre time transfer in UTC Toward a highly stable master laser for the interrogation of SYRTE's Sr and Hg optical lattice clocks Time-transfer over optical fibre using pseudo-random noise ranging OPTIME - Time and frequency dissemination system based on fiber optical network - Local repository project
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