Martin Allard scite author profile

This work presents the proof of concept of a remote sensing system designed for the detection of molecular species such as gas pollutants via active differential optical absorption spectroscopy in the short-and mid-wavelength infrared. The system includes an optical parametric generator generating broad linewidth pulses tunable between 1.5 and 3.8 μm. A telescope coupled to a grating spectrograph and an in-house gated HgCdTe avalanche photodiode measures the whole return spectrum from each pulse. Experiments show simultaneous detection in atmospheric air and inside a cell of H 2 O and CO 2 at 2 μm, and H 2 O and CH 4 at 3.3 μm. The detection limits for CO 2 and CH 4 are 158 and 1 ppm·m, respectively. A new algorithm is also presented enabling the determination of concentrations when spectra include strong absorption features.

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The EarthCARE broadband radiometer detectors

Proulx

Williamson

Allard

et al. 2009

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The Broadband Radiometer (BBR) is an instrument being developed for the ESA EarthCARE satellite. The BBR instrument objective is to provide top-of-atmosphere (TOA) radiance measurements in two spectral channels, and over three along-track directions. The instrument has three fixed telescopes (one for each view) each containing a broadband detector. Each detector consists of an uncooled 30-pixel linear focal plane array (FPA) coated with gold black in order to ensure uniform spectral responsivity from 0.2 µm to 50 µm. The FPA is hybridized with a readout integrated circuit (ROIC) and a proximity electronics circuit-card assembly (CCA) packaged in an aluminum base plate with cover. This paper provides a technical description of the detector design and operation. Performance data at the FPA pixel level as well as unit-level test results on early prototypes of the detectors are also presented.

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Broadband and tunable optical parametric generator for remote detection of gas molecules in the short and mid-infrared

et al. 2015

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The development of a novel broadband and tunable optical parametric generator (OPG) is presented. The OPG properties are studied numerically and experimentally in order to optimize the generator's use in a broadband spectroscopic LIDAR operating in the short and mid-infrared. This paper discusses trade-offs to be made on the properties of the pump, crystal, and seeding signal in order to optimize the pulse spectral density and divergence while enabling energy scaling. A seed with a large spectral bandwidth is shown to enhance the pulse-to-pulse stability and optimize the pulse spectral density. A numerical model shows excellent agreement with output power measurements; the model predicts that a pump having a large number of longitudinal modes improves conversion efficiency and pulse stability.

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High-power and ultranarrow DFB laser: the effect of linewidth reduction systems on coherence length and interferometer noise

Cliche

Allard

Têtu

2006

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Martin Allard

Absolute frequency measurement of a laser at 1556 nm locked to the 5S1/2−5D5/2 two-photon transition in 87Rb

Differential optical absorption spectroscopy lidar for mid-infrared gaseous measurements

The EarthCARE broadband radiometer detectors

Broadband and tunable optical parametric generator for remote detection of gas molecules in the short and mid-infrared

High-power and ultranarrow DFB laser: the effect of linewidth reduction systems on coherence length and interferometer noise

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