Lidar Monitors Vapor, Wind

Researchers at the Max-Planck-Institut für Meteorologie are developing a ground-based differential absorption lidar technique to remotely monitor water vapor and take wind measurements. A frequency-doubled Nd:YVO laser pumps a continuous-wave single-frequency Ti:sapphire ring laser. The major advantage of the system is its ability to provide water vapor profiles with high resolution during the day.
The system exhibits less than a 5 percent margin of error in the absolute humidity for the water vapor measurements. V. Wulfmeyer of the institute presented the team's findings at the Conference on Lasers and Electro-Optics in Baltimore, saying that the technique will be useful for weather forecasting in aerospace applications.





LATEST NEWS

• Fraunhofer CAP Appoints Head, Scientific Director: People in the News: 1/15/25
  Jan 15, 2025
• Bioluminescent Tags Track RNA Dynamics in Live Cells in Real Time
  Jan 15, 2025
• Sensing and Inspection Specialist EVK Joins Headwall Group
  Jan 14, 2025
• PHOTON IP Raises $4.9M Seed Round
  Jan 14, 2025
• Graphene Prevents Damage to Flexible Thin Films for Wearable Electronics
  Jan 14, 2025
• Thorlabs Acquires VCSEL Developer, Longtime Partner Praevium Research
  Jan 13, 2025
• Electrically-Pumped GaAs-Based Nano-Ridge Lasers Fabricated at Wafer Scale
  Jan 13, 2025
• Photoactivated Gel Achieves Bone Regeneration and Adhesion at Same Time
  Jan 13, 2025