Low-noise and high-power second harmonic generation of 532 nm laser for trapping ultracold atoms

Xuan-Kai Wang; Zhao-Yu Zhou; Meng-Da Li; Yong-Guang Zheng; Wei-Yong Zhang; Guo-Xian Su; Ming-Gen He; Zhen-Sheng Yuan

doi:10.1063/5.0117561

Low-noise and high-power second harmonic generation of 532 nm laser for trapping ultracold atoms

Rev Sci Instrum. 2022 Dec 1;93(12):123002. doi: 10.1063/5.0117561.

Authors

Xuan-Kai Wang¹, Zhao-Yu Zhou¹, Meng-Da Li¹, Yong-Guang Zheng¹, Wei-Yong Zhang¹, Guo-Xian Su¹, Ming-Gen He¹, Zhen-Sheng Yuan¹

Affiliation

¹ Hefei National Laboratory for Physical Sciences at Microscale and Department of Modern Physics, University of Science and Technology of China, Hefei 230026, China.

PMID: 36586898
DOI: 10.1063/5.0117561

Abstract

Optical lattices for coherently manipulating ultracold atoms demand high-power, low-noise, narrow-line-width, and continuous-wave lasers. Here, we report the implementation of a 30 W 532 nm low-noise laser by second harmonic generation from a 1064 nm fiber laser, which is capable to generate optical lattices for a quantum gas microscope of Rb87 atoms. The overall conversion efficiency is 59% at an input power of 51 W with a lithium triborate crystal coupled to a ring cavity. The relative intensity noise of the output laser is suppressed to -120 dBc/Hz in the range of 10 Hz-100 kHz with a high dynamic range of over 50 dB, which is suitable for long-term trapping and coherent manipulation of the quantum gases.