Laser gas sensing technology plays an important role in national major projects, especially in the fields of atmospheric science, polar scientific research and deep-sea exploration. Through high-precision gas monitoring, scientists can study global climate change, ecosystem dynamics and deep-sea energy utilization, providing core data support for national strategic research and environmental policy formulation.

1. Polar Scientific Research: Deploy laser gas sensing equipment at polar stations to monitor the emission of greenhouse gases (e.g. CO₂, CH₄) and study the impact of glacier melting on climate.

2. Deep-Sea Exploration: Submersibles with laser gas analyzers are used to detect deep-sea methane and H₂S concentrations to support seabed mineral and energy development.

3. Atmospheric Detection and Modelling: Laser gas sensors are used to collect atmospheric data at weather stations and sounding planes to study key issues such as the carbon cycle and pollutant dispersion.

Traditional Methods: Weather balloons and laboratory analysis methods, poor data continuity, difficult to record dynamic changes in real time.

Laser Sensing Advantage:

• Real-Time Online Monitoring: Suitable for long time and high precision data collection in extreme environment

• Portability and Adaptability: Equipment can be integrated into aircraft, drones or deep-sea submersibles

• Versatile Data Support: Multiple gases can be measured simultaneously to meet the needs of complex environments