Abstract
We report on a new scheme for efficient continuous-wave (CW) mid-infrared generation using difference frequency generation (DFG) inside a periodically poled lithium niobate (PPLN)-based optical parametric oscillator (OPO). The pump sources were two CW fiber lasers fixed at 1018 nm and 1080 nm. One worked as the assisted laser to build parametric oscillation and generate an oscillating signal beam while the other worked at low power ( ${\leqslant}3~\text{W}$ ) to induce DFG between it and the signal beam. The PPLN temperature was appropriately adjusted to enable OPO and DFG to synchronously meet phase-matching conditions. Finally, both low-power 1018 nm and 1080 nm pump beams were successfully converted to $3.1~\unicode[STIX]{x03BC}\text{m}$ and $3.7~\unicode[STIX]{x03BC}\text{m}$ idler beams, respectively. The conversion efficiencies of the 1018 nm and 1080 nm pumped DFG reached 20% and 15%, respectively, while their slope efficiencies reached 19.6% and 15%. All these data were comparable to the OPOs pumped by themselves and never realized before in traditional CW DFG schemes. The results reveal that high-efficiency frequency down-conversion can be achieved with a low-power near-infrared pump source.
Highlights
Because they cover the important transparent window of the atmosphere and most fundamental rovibrational absorption bands of molecules, mid-infrared lasers have been widely used in the areas of environmental monitoring, medical diagnosis and counter-measurement[1,2,3]
In 2018, we demonstrated a DW mid-infrared optical parametric oscillator (OPO) which was pumped by two independent fiber lasers fixed at 1018 and 1080 nm, and realized phasematched signal beam coupling by tuning the grating period of the Periodically poled lithium niobate (PPLN)
Mid-infrared CW difference frequency generation (DFG) sources have been extensively researched, their pump-to-idler conversion efficiency was relatively low compared with OPOs, which resulted from the low single-pass parametric gain
Summary
Because they cover the important transparent window of the atmosphere and most fundamental rovibrational absorption bands of molecules, mid-infrared lasers have been widely used in the areas of environmental monitoring, medical diagnosis and counter-measurement[1,2,3]. In 2018, we demonstrated a DW mid-infrared OPO which was pumped by two independent fiber lasers fixed at 1018 and 1080 nm, and realized phasematched signal beam coupling by tuning the grating period of the PPLN.
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