Optical Gas Sensing: Media, Mechanisms and Applications

Optical Gas Sensing: Media, Mechanisms and Applications

Optical gas sensing is one of the fastest developing research areas in laser spectroscopy. Continuous development of new coherent light sources operating especially in the Mid-IR spectral band (QCL-Quantum Cascade Lasers, ICL-Interband Cascade Lasers, OPO-Optical Parametric Oscillator, DFG-Differe...

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Bibliographic Details
Other Authors: Abramski, Krzysztof M. (Editor), Jaworski, Piotr (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Technology: general issues
History of engineering & technology
laser flow meter
Pitot tube
flow speed
time of flight
dilution method
flow simulation
flow turbulence
gas sensing applications
MEMS
gas sensor
photoacoustics
cantilever
capacitive detection
analytic model
infrared imaging
multispectral and hyperspectral imaging
air pollution monitoring
remote sensing and sensors
spectroscopy
fourier transform
image processing
laser gas analyzer
flux measurement
eddy covariance method
derivative absorption spectroscopy
gas sensors
antiresonant hollow core fibers
laser spectroscopy
wavelength modulation spectroscopy
tunable diode laser absorption spectroscopy
photothermal spectroscopy
photoacoustic spectroscopy
fiber gas sensors
mid-infrared
quantum cascade detector
high-speed operation
heterodyne detection
high-resolution spectroscopy
isotopic ratio
frequency comb
Vernier spectroscopy
refractometry
pressure
short-term performance
Fabry-Perot cavity
gas modulation
modulation techniques
metrology
integrated sensors
waveguides
absorption spectroscopy
Raman spectroscopy
gas sensing
femtosecond laser micromachining
microchannel fabrication
microstructured fibers
photoacoustic
pressure transducer
wafer-level
CO2
combined NIR/MIR laser absorption
laser multiplexing in a mid-IR single-mode fiber
simultaneous multispecies (CO, CO2, H2O) in situ measurements
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Description
Summary:Optical gas sensing is one of the fastest developing research areas in laser spectroscopy. Continuous development of new coherent light sources operating especially in the Mid-IR spectral band (QCL-Quantum Cascade Lasers, ICL-Interband Cascade Lasers, OPO-Optical Parametric Oscillator, DFG-Difference Frequency Generation, optical frequency combs, etc.) stimulates new, sophisticated methods and technological solutions in this area. The development of clever techniques in gas detection based on new mechanisms of sensing (photoacoustic, photothermal, dispersion, etc.) supported by advanced applied electronics and huge progress in signal processing allows us to introduce more sensitive, broader-band and miniaturized optical sensors. Additionally, the substantial development of fast and sensitive photodetectors in MIR and FIR is of great support to progress in gas sensing. Recent material and technological progress in the development of hollow-core optical fibers allowing low-loss transmission of light in both Near- and Mid-IR has opened a new route for obtaining the low-volume, long optical paths that are so strongly required in laser-based gas sensors, leading to the development of a novel branch of laser-based gas detectors. This Special Issue summarizes the most recent progress in the development of optical sensors utilizing novel materials and laser-based gas sensing techniques.
Physical Description:1 electronic resource (234 p.)
ISBN:books978-3-0365-3480-0
9783036534794
9783036534800
Access:Open Access

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