One single semiconductor distributed-feedback (DFB) laser is used to demonstrate the possibility of si- multaneous detection of two different molecular species. Direct absorption and low-wavelength modulation (LWM) spectroscopy were employed to investigate weak overtone transitions of CO2 and CO at a wavelength of λ = 1578 nm. Sensitivity measurements under different conditions have been performed and the detection limit of the apparatus was measured to be less than 10 m T or r over a 1-m path length. In addition, we measured for the first time environmentally and spectroscopically relevant self-broadening and nitrogen- broadening coefficients for CO2 and CO in this spectral region and we discuss different possibilities for increasing the sensitivity of the apparatus.
Simultaneous detection of CO and CO 2 using a semiconductor DFB diode laser at 1.578 μm / M. Gabrysch;C. Corsi;F.S. Pavone;M. Inguscio. - In: APPLIED PHYSICS. B, LASERS AND OPTICS. - ISSN 0946-2171. - STAMPA. - 65:(1997), pp. 75-79. [10.1007/s003400050253]
Simultaneous detection of CO and CO 2 using a semiconductor DFB diode laser at 1.578 μm
PAVONE, FRANCESCO SAVERIO;INGUSCIO, MASSIMO
1997
Abstract
One single semiconductor distributed-feedback (DFB) laser is used to demonstrate the possibility of si- multaneous detection of two different molecular species. Direct absorption and low-wavelength modulation (LWM) spectroscopy were employed to investigate weak overtone transitions of CO2 and CO at a wavelength of λ = 1578 nm. Sensitivity measurements under different conditions have been performed and the detection limit of the apparatus was measured to be less than 10 m T or r over a 1-m path length. In addition, we measured for the first time environmentally and spectroscopically relevant self-broadening and nitrogen- broadening coefficients for CO2 and CO in this spectral region and we discuss different possibilities for increasing the sensitivity of the apparatus.
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