Differential Absorption Lidar (DIAL) has emerged as a pivotal tool in the remote sensing of atmospheric constituents. This technique exploits the difference in absorption at selected wavelengths to ...

Differential Absorption Lidar (DIAL) systems have emerged as indispensable instruments in atmospheric monitoring, offering high-resolution, range-resolved measurements of trace gases. By utilising ...

A collaborative research team has introduced a nitrogen-centric framework that explains the light-absorbing effects of atmospheric organic aerosols. This groundbreaking study reveals that ...

Aerosol scientists quantify the extent of light absorption by black carbon in fire clouds to better model climate impacts of extreme wildfire events. In an actively warming world, large-scale ...

Are you ready to tackle some of the most pressing challenges in climate, air quality, and atmospheric dynamics? At Michigan Technological University, our PhD program in Atmospheric Sciences equips you ...

Forest fires are a fundamental force in Earth's dynamics with a direct impact on human health, food security, and biodiversity. From air quality to landscape configuration and resource availability, ...

The research team comprised Prof. YU Jianzhen, Chair Professor of the Department of Chemistry and the Division of Environment and Sustainability at HKUST(left) and Prof. FU Tzung-May, Professor of the ...