Product Introduction: The temperature detection lidar operates on principles distinct from those used for atmospheric temperature at high altitudes. The Rayleigh lidar measures stratospheric temperature, suitable for detecting temperature distributions above 30 km, by analyzing atmospheric density profiles and applying algorithmic equations to derive temperature. The vibrational Raman lidar measures temperatures in the upper troposphere and stratosphere, correcting for atmospheric transmittance and normalizing radar system constants to obtain molecular density profiles. The pure rotational Raman lidar, commonly using wavelengths of 532 nm and 355 nm, is primarily for tropospheric temperature detection, relying on the intensity of N? or O? rotational Raman scattering lines, which depend on atmospheric temperature.
By detecting the interaction radiation signals between laser and various atmospheric molecules and aerosols, this lidar reverses atmospheric properties through various physical processes. Raman lidar achieves the measurement of water vapor content by detecting Raman backscattered signals from water vapor and nitrogen molecules at different altitudes, providing vertical profiles of water vapor mixing ratios.
Fewer operational restrictions compared to microwave radiometers and minimized detection blind spots.
Extensive historical data browsing capabilities and all-weather automated operation without human oversight.
Application Areas:
Meteorological detection departments.
Super station haze monitoring, identification, and evolution observation.
Atmospheric pollution warning and forecasting.
Networked radar pollution analysis and monitoring.
Prevention of significant potential pollution events.
Research in pollutant regional transport models and atmospheric fine particle characteristics related to haze formation mechanisms.
Technical Specifications:
Performance Parameters |
Indicators |
Target |
Atmospheric Temperature 、Vapor Mixing Ratio |
Detection Wavelength | 355nm、386nm、407nm、532nm |
Effective Detection Height | 2-3km(daytime),6-8km(nighttime) |
Time Resolution | 5-15min |
Height Resolution | 3.75-30m |
Detection Error | Humidity: 10%-20%
Temperature: <±1-2K |
Detection Technology |
Raman Technology (Humidity) |