Phase sensitive chirped laser dispersion spectroscopy under high absorbance conditions

Abstract: A whole-fiber methane sensor under high absorbance based on phase sensitive chirped laser dispersion spectroscopy is presented in this paper. The laser source of the sensor is a tunable distributed feedback diode laser with a frequency of 1653.7 nm. A telecom-based electro-optical intensity Mach-Zehnder modulator working in carrier suppression mode is adapted to modulate the single frequency laser beam for generating a dual-sideband spectrum beside the carrier wave. Unlike previous proposed phase sensitive chi… Show more

“…However, the cost and technical complexity of high-precision and stable frequency comb sources limit their further applications in the sensing field. As field-deployable gas detection technologies, both CLaDS and HPSDS are based on the high-frequency intensity modulation of the laser output to retrieve dispersion distributions. − Since the measured quantity is phase-shift independent of light intensity, they are not affected by fluctuations in laser power. Unlike CLaDS, which requires a high-performance real-time spectrometer to perform frequency demodulation of the beat signal and a more complex data acquisition system, HPSDS directly retrieves the phase of the down-converted beat signal through a lock-in amplifier. , In contrast to CLaDS, HPSDS has a simpler optical setup and signal processing system.…”

Measurement of CO₂ Isotopologue Ratios Using a Hollow Waveguide-Based Mid-Infrared Dispersion Spectrometer

“…However, the cost and technical complexity of high-precision and stable frequency comb sources limit their further applications in the sensing field. As field-deployable gas detection technologies, both CLaDS and HPSDS are based on the high-frequency intensity modulation of the laser output to retrieve dispersion distributions. − Since the measured quantity is phase-shift independent of light intensity, they are not affected by fluctuations in laser power. Unlike CLaDS, which requires a high-performance real-time spectrometer to perform frequency demodulation of the beat signal and a more complex data acquisition system, HPSDS directly retrieves the phase of the down-converted beat signal through a lock-in amplifier. , In contrast to CLaDS, HPSDS has a simpler optical setup and signal processing system.…”

Measurement of CO₂ Isotopologue Ratios Using a Hollow Waveguide-Based Mid-Infrared Dispersion Spectrometer

Measurement of methane gas with high absorbance based on modified wavelength modulation spectroscopy