Application of a characterized difference-frequency laser source to carbon monoxide trace detection

Abstract

A tunable continuous wave (cw) mid-infrared (MIR) laser based on difference-frequency generation (DFG) in a 1.5-cm long AgGaS 2 nonlinear crystal for trace gas detection is reported. Two visible and near-infrared diode lasers were used as pump and signal sources. The MIR-DFG laser was tunable in a wavelength range of 4.75 μm-4.88 μm. The phase-matching (PM) condition was non-critically achieved by adjusting the temperature of the crystal for fixed pairs of input pump and signal wavelengths. The required PM temperatures of the generated MIR-DFG wavelengths have been calculated by using three sets of recent Sellmeier equations and the temperature-dispersion equations of AgGaS 2 given by Willer U, et al. (Willer U, Blanke T and Schade W 2001 Appl. Opt. 40 5439). Then the calculated PM temperatures are compared with the experimental values. The performance of the MIR-DFG laser is shown by the trace detection of the P(16) carbon monoxide ( 12C 16O) absorption line in a laboratory-fabricated absorption cell. The enhanced sensitivity of about 0.6×10 -4 was obtained through the long path absorption provided by consecutive reflections between coated cylindrical mirrors of a constructed cell. © 2012 Chinese Physical Society and IOP Publishing Ltd.