余方群　教授

Dr. Fangqun Yu has been a tenured faculty member and research professor at the State University of New York at Albany. He got his bachelor’s and master’s degrees from Peking University (1991) and the Chinese Academy of Sciences (1994) and earned his Ph.D. in Atmospheric Sciences from the University of California at Los Angeles (1998). Dr. Yu’s research focuses on the fundamental theory of nucleation mechanisms, the development and application of nucleation and advanced particle microphysics (APM) models, the regional and global simulations of size-resolved particle microphysical processes, and the climatic and environmental impacts of atmospheric particles. Current research projects include new particle formation, aerosol-cloud-climate interactions,  health effects of ultrafine particles and co-pollutants, solar radiation management, and contrail formation and climate implications associated with hydrogen aviation. He has published about 160 peer-reviewed scientific journal papers with a Google Scholar h-index of 50.

To respond to the ongoing climate crisis, the top priority is to achieve carbon neutrality as rapidly as possible. Nevertheless, because of the challenges of cutting emissions at adequate rates and the long lifetime of greenhouse gases, it is necessary to understand the full range of options available for protecting the safety of human and natural systems. Solar radiation modification/management (SRM) has received increasing attention as a transitionary tool to try and limit the global surface temperature increase below 1.5 °C and to buy time for carbon emission reduction and removal. In the first part of this task, I will introduce SRM and the controversy associated with it. The second part will focus on stratospheric aerosol injection (SAI), one of the most promising SRM approaches. I will present the application of a sized-resolved (sectional) advanced particle microphysics (APM) model developed in our group to address SAI issues, and show the importance of accurate representation of size-resolved particle microphysics and sub-grid plume scale process-level understanding. Finally, I will discuss future research and governance needs as well as various challenges of SAI.