Measuring atmospheric methane and water vapour using near-infrared diode lasers

Single-frequency near-infrared diode lasers are used to measure atmospheric methane and water vapor. Using high-frequency wavelength modulation methods, sensitive instrumentation with fast time response are designed. Communications lasers operating near 1310 nm probe weak overtone transitions of both molecules; lasers with custom wavelengths at present lack sophisticated packaging, but can achieve much higher sensitivity. We describe two field-tested instruments: an automated, airborne hygrometer with a sensitivity of 8 ppm (by volume) with a one second averaging time, and a fast response methane sensor with a sensitivity of 65 ppb. Improvements to these instruments are outlined, and the effects of laser nonlinearities are noted.

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