Add to ORKGUsing a precise definition of clustering, it is shown that in two tropical cumulus clouds, droplets appear to be bunched over distances ranging from at least a kilometer or more down to several centimeters. A statistical framework is proposed for quantifying clustering in terms of a Poisson probability mixture. While these observations require further substantiation in many different clouds, droplet clustering may play a role in diverse phenomena from the coalescence growth of raindrops to the scattering of radiation by clouds
Current understanding of the icing process through collisions between a surface and supercooled clou...
The extent of droplet clustering in turbulent clouds has remained largely unquantified, and yet is o...
In this study, the variability of the spectral dispersion of droplet size distributions (DSDs) in co...
Recent studies have led to the statistical characterization of the spatial (temporal) distributions ...
The current understanding of fundamental processes in atmospheric clouds, such as nucleation, drople...
The extent of droplet clustering in turbulent clouds has remained largely unquantified, and yet is o...
A great deal of work has been devoted in the last decade to identify whether or not the spatial posi...
Droplet positions in atmospheric clouds are random but possibly correlated on some scales. This ‘clu...
By analyzing aircraft measurements of individual drop sizes in clouds, we have shown in a companion ...
In recent studies it is shown that in variable rain the spatial distribution of drops is not Poisson...
Recent studies have led to the statistical characterization of the flux of drops of a particular siz...
In past work it is argued that rain consists of patches of coherent, physical drop size distribution...
Simultaneous observations of cloud droplet spatial statistics, cloud droplet size distribution and c...
The traditional statistical description of the spatial and temporal distributions of cloud droplets ...
The spatial clustering of drops is a defining characteristic of rain on all scales from centimeters ...
Current understanding of the icing process through collisions between a surface and supercooled clou...
The extent of droplet clustering in turbulent clouds has remained largely unquantified, and yet is o...
In this study, the variability of the spectral dispersion of droplet size distributions (DSDs) in co...
Recent studies have led to the statistical characterization of the spatial (temporal) distributions ...
The current understanding of fundamental processes in atmospheric clouds, such as nucleation, drople...
The extent of droplet clustering in turbulent clouds has remained largely unquantified, and yet is o...
A great deal of work has been devoted in the last decade to identify whether or not the spatial posi...
Droplet positions in atmospheric clouds are random but possibly correlated on some scales. This ‘clu...
By analyzing aircraft measurements of individual drop sizes in clouds, we have shown in a companion ...
In recent studies it is shown that in variable rain the spatial distribution of drops is not Poisson...
Recent studies have led to the statistical characterization of the flux of drops of a particular siz...
In past work it is argued that rain consists of patches of coherent, physical drop size distribution...
Simultaneous observations of cloud droplet spatial statistics, cloud droplet size distribution and c...
The traditional statistical description of the spatial and temporal distributions of cloud droplets ...
The spatial clustering of drops is a defining characteristic of rain on all scales from centimeters ...
Current understanding of the icing process through collisions between a surface and supercooled clou...
The extent of droplet clustering in turbulent clouds has remained largely unquantified, and yet is o...
In this study, the variability of the spectral dispersion of droplet size distributions (DSDs) in co...