The mechanisms and modeling concepts proposed in the literature for the fluid particle (ie,
bubble and drops) breakage phenomena in laminar and turbulent dispersions are …

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 …

This article reviews how precipitation microphysics processes are observed in dual-
polarization radar observations. These so-called “fingerprints” of precipitation processes are …

Like many natural objects, raindrops are distributed in size. By extension of what is known to
occur inside the clouds, where small droplets grow by accretion of vapour and coalescence …

Rain simulators (RSs) are used in soil crusting and soil erosion laboratory and field studies.
The energy flux produced by RSs is usually high in respect to the intensity of the application …

The impact of the collisional warm-rain microphysical processes on the polarimetric radar
variables is quantified using a coupled microphysics–electromagnetic scattering model. A …

The increased use of observations of rainfall microphysics from disdrometers to produce
more accurate rainfall kinetic energy estimates requires closer analysis of measurement …

" Historically, new ideas and hypotheses start in small research areas fostered by a small
community through journal papers and monographs. As their appreciation and practicality …

A unique relation between raindrop size and fall speed vt (D) is assumed throughout
atmospheric science. Yet, our speed versus size measurements of millions of drops during …

Sensitivity of a Simulated Midlatitude Squall Line to Parameterization of Raindrop Breakup in:
Monthly Weather Review Volume 140 Issue 8 (2012) Jump to Content Jump to Main Navigation …