Aerosol–cloud interactions (ACIs) are considered to be the most uncertain driver of present-
day radiative forcing due to human activities. The nonlinearity of cloud-state changes to …

In the atmosphere, microphysics refers to the microscale processes that affect cloud and
precipitation particles and is a key linkage among the various components of Earth's …

Understanding cloud droplet relative dispersion is critical for mitigating the confounding
effect of aerosol‐cloud interactions in the simulation of the global climatic patterns. Diverse …

Biomass burning (BB) greatly impacts the Maritime Continent through various mechanisms
including agricultural burning, land clearing and natural response to drought. The dynamic …

The convection–cloud chamber enables measurement of aerosol and cloud microphysics,
as well as their interactions, within a turbulent environment under steady‐state conditions …

A minimalist model of microphysical properties in cloudy Rayleigh-Bénard convection is
developed based on mass and number balances for cloud droplets growing by vapor …

We have analyzed near-global stratospheric data (and mesospheric data as well for H 2 O)
in terms of absolute abundances, variability, and trends for O 3, H 2 O, HCl, N 2 O, and HNO …

Activation is the first step in aerosol‐cloud interactions, which have been identified as one of
the principal uncertainties in Earth's climate system. Aerosol particles become cloud …

This study examines the vertical variations of cloud microphysical relationships and their
implications to cloud microphysical processes in marine stratocumulus clouds using in‐situ …

To consider the growth of cloud droplets by condensation in turbulence, the Fokker–Planck
equation is derived for the droplet size distribution (droplet spectrum). This is an extension of …