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Supercontinuum Lidar for Spectroscopic Sensing Applications
Abba Usman Saleh
Physics
Research output
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Book/Report
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Doctoral thesis
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Collection of Articles
Overview
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Dive into the research topics of 'Supercontinuum Lidar for Spectroscopic Sensing Applications'. Together they form a unique fingerprint.
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Keyphrases
Sensing Applications
100%
Supercontinuum
100%
Light Detection
100%
LiDAR
100%
Spectroscopic Sensor
100%
Flue Gas
66%
Gas Parameters
66%
Wavelength Range
33%
Aerosol Particles
33%
Industrial Application
33%
Measurement Capability
33%
Process Optimization
33%
Industrial Processes
33%
Water Vapor
33%
Combustion
33%
Supercontinuum Spectrum
33%
Process Efficiency
33%
Industrial Environment
33%
3D Analysis
33%
Mid-infrared
33%
Vapor Concentration
33%
Real-time 3D
33%
Interferometer
33%
Fabry
33%
Micro-electro-mechanical Systems
33%
Wavelength Band
33%
Detection System
33%
Absorption Feature
33%
Particle Distribution
33%
Experimental Demonstration
33%
Specific Wavelength
33%
Supercontinuum Source
33%
Multispectral Analysis
33%
Spatial Coherence
33%
Supercontinuum Light
33%
Broadband Light Source
33%
Spectral Bandwidth
33%
Near-infrared Sensor
33%
Strong Absorption
33%
Simultaneous Monitoring
33%
Combustion Diagnostics
33%
Differential Absorption
33%
Molecular Fingerprints
33%
Timing Analysis
33%
Unique Capabilities
33%
Ranging System
33%
Vapor Temperature
33%
Pollutant Emission Reduction
33%
Recycling Process
33%
Hyperspectral Remote Sensing
33%
White Laser
33%
Hyperspectral Sensing
33%
Industrial Biomass Boiler
33%
Optical Remote Sensing Technique
33%
Robust Diagnosis
33%
Black Plastic Wastes
33%
Black Plastic
33%
Monochromatic Light Source
33%
Engineering
Sensing Application
100%
Light Detection and Ranging
100%
Optical Radar
100%
Light Source
66%
Flue Gas
66%
Automotives
33%
Industrial Applications
33%
Observables
33%
Industrial Environment
33%
3D Analysis
33%
Water Distribution
33%
Micro-Electro-Mechanical System
33%
Sensing Mechanisms
33%
Broadband Light Source
33%
Spectral Bandwidth
33%
Biomass Boiler
33%
Infrared Sensor
33%
Time Analysis
33%
Recycling Process
33%
Earth and Planetary Sciences
Real Time
100%
Optical Radar
100%
Flue Gas
66%
Atmospherics
33%
Microelectromechanical System
33%
Pollutant Emission
33%
Plastic Waste
33%
Optical Remote Sensing
33%
Recycling Method
33%
Remote Sensing
33%
Physics
Light Source
100%
Optical Radar
100%
Near Infrared
33%
Aerosol
33%
Atmospherics
33%
Combustion Diagnostics
33%
3D Analysis
33%
Microelectromechanical System
33%
Material Science
Flue Gas
100%
Water Vapor
50%
Interferometer
50%
Microelectromechanical System
50%
Combustion Diagnostics
50%
Chemistry
Flue Gas
100%
Water Vapor
50%
Microelectromechanical System
50%