We developed a mid-IR 2f-wavelength modulation spectroscopy (WMS) detection system combining a continuous wave external-cavity quantum cascade laser (QCL) at 5.2 mu m and an astigmatic multipass cell. The high-sensitivity performance of the 2f-WMS system was validated by simultaneously probing the strongest interference-free absorption lines of ?-doublet components of R (6.5) rotational line in (2)pi(1/2) magnetic electronic sub-state of nitric oxide (NO) centred at 1900.0706 cm(-1) and the R (18) rotational line of carbonyl sulphide (OCS) in the (nu (1) + 2 nu (2)) combination band centred at 1899.9756 cm(-1). We compared the results with the direct absorption spectroscopy and have shown that a detection limit of 300 ppb for NO and 3 ppm for OCS could easily be achieved by the 2f-WMS method with an optical pathlength of 76 m. Hence, we believe that in the future the present QCL based 2f-WMS detection method with high sensitivity and specificity could be deployed for real-time monitoring of NO and OCS in a harsh environment.
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