Auto-pump-depleted stable single-longitudinal-mode 1.5 μm source with the assistance of SHG

Author:

Peng Xiaobin,Duan Lichao,Wei Jiao,Su Jing,Lu HuadongORCID,Peng Kunchi

Abstract

To realize a stable single-longitudinal-mode (SLM) 1550-nm light source for the generation of non-classical states, a ring auto-pump-depleted singly resonant optical parametric oscillator (SRO) with the assistance of second-harmonic-wave generation (SHG) is designed and built in this Letter. A magnesium oxide doped periodically polarized lithium niobate (MgO:PPLN) crystal and a lithium triborate (LBO) crystal are employed as the optical parametric downconversion (OPDC) and SHG crystals, respectively. Especially, the introduced SHG can firstly increase the loss difference between the lasing and non-lasing modes so that the dual-mode or multi-mode coupling in the achieved SRO can be effectively eliminated and the stable SLM operation is achieved. At the same time, the SHG will automatically adjust the output coupling efficiency of SRO, so as to achieve efficient conversion efficiency and auto-pump depletion of SRO. In addition, due to the SHG, it is easy to achieve the low-intensity noise multi-wavelength output for the stable SLM SRO. As a result, the output powers of the SLM 1550 nm and 775 nm are up to 4.05 W and 3.25 W, respectively, and the total optical conversion of the built SRO can achieve 45.58%. The presented method paves a way to develop a compact stable SLM multi-wavelength SRO, and the obtained SRO is further beneficial to develop compact continuous-variable non-classical light fields.

Funder

National Natural Science Foundation of China

National Key Research and Development Program of China

Applied Basic Research Project of Shanxi Province, China

Fund for Shanxi "1331 project" Key Subjects Construction

Research Project Supported by Shanxi Scholarship Council of China

Special Fund Project for Science and Technology Innovation Teams of Shanxi Provience

Shanxi Province Patent Conversion Project

Publisher

Optica Publishing Group

Subject

Atomic and Molecular Physics, and Optics

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