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Laser Applications to Chemical, Security and Environmental Analysis (LACSEA)
Laser Applications to Chemical, Security and Environmental Analysis (LACSEA)
- New Technologies in Laser Sources for Optical Sensing Applications
- Continuous wave, pulsed, modulated lasers and their characterization
- High-repetition-rate sources
- Broadband lasers
- Ultrafast lasers
- Frequency combs
- Chemical Sensing Methods
- Spectroscopic sensing of gases, aerosols and particulates
- Combustion and industrial process monitoring
- Real-time control
- Sensors for sustainable energy systems
- Extension of techniques toward the VUV or THz spectral ranges
- Novel methods for spectroscopic science and chemical analysis
- Nonlinear optical techniques
- Extension to multiple points or to volumetric measurements
- High-repetition-rate imaging
- Sensor miniaturization
- Extension and improvement of high-temperature spectroscopic databases
- Machine-learning enabled sensing solutions
- Prediction of chemical properties using spectra
- Sensing in harsh environments
- Security Applications
- Remote sensing
- Miniaturization, optical lab-on-chip systems and silicon photonics
- Distributed sensor networks
- Biochemical/biophysical applications of laser techniques
- Use of new sources offering high power or pulse energy
- Industrial security monitoring and industrial process control
- Environmental Analysis
- Atmospheric sensing of gases, solids and liquids
- Atmospheric chemistry
- Advancements in LIDAR
- Extension and improvement of atmospheric spectroscopic databases
- Airborne sensor systems
- Ruggedized sensor systems
- Propagation of laser beams through scattering media
- Urban, rural and volcanic emission measurements
- Design and development of environmental monitoring technologies
- Advances in remote sensing of environmental parameters
- Low-cost/frugal sensing solutions