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Advanced Optical Techniques for Gas Sensing Using Supercontinuum Sources
Antti Aalto
Physics
Research output
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Book/Report
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Doctoral thesis
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Dive into the research topics of 'Advanced Optical Techniques for Gas Sensing Using Supercontinuum Sources'. Together they form a unique fingerprint.
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Keyphrases
Supercontinuum
100%
Optical Techniques
100%
Supercontinuum Source
100%
Gas Sensing
100%
Light Source
33%
Spectroscopic Techniques
33%
Long Pulse
33%
LiDAR
33%
Pulsed Regime
16%
Beam Quality
16%
Combustion
16%
Optical Spectroscopy
16%
Measurement Accuracy
16%
Measurement Technology
16%
Temperature Measurement
16%
Mid-infrared
16%
Lamp
16%
Concentration of Measure
16%
Temperature Profile
16%
Incoherent Broadband Cavity Enhanced Absorption Spectroscopy (IBBCEAS)
16%
Gas Sensing Applications
16%
Spectroscopy Absorption
16%
Source Type
16%
Spectral Bandwidth
16%
Near-IR
16%
Molecular Species
16%
Remote Measurement
16%
Detection Sensitivity
16%
Cavity-enhanced Absorption Spectroscopy
16%
Molecular Fingerprints
16%
Fingerprint Region
16%
Mid-infrared Supercontinuum
16%
Industrial Measurement
16%
Measurement Bandwidth
16%
Concentration Profile
16%
Differential Absorption Lidar
16%
Ultrasensitive Detection
16%
White Laser
16%
Intrinsic Instability
16%
Physics
Light Source
100%
Absorption Spectroscopy
100%
Optical Radar
100%
Differential Absorption Lidar
50%