Add to ORKGBy analyzing aircraft measurements of individual drop sizes in clouds, we have shown in a companion paper (Knyazikhin et al., 2004) that the probability of finding a drop of radius r at a linear scale l decreases as l(sup D(r)) where 0 less than or equal to D(r) less than or equal to 1. This paper shows striking examples of the spatial distribution of large cloud drops using models that simulate the observed power laws. In contrast to currently used models that assume homogeneity and therefore a Poisson distribution of cloud drops, these models show strong drop clustering, the more so the larger the drops. The degree of clustering is determined by the observed exponents D(r). The strong clustering of large drops arises naturally from the ob...
In this two-part study, the relationships between the width of the cloud droplet size distribution a...
International audienceUsing a unique data set of three-dimensional drop positions and masses (the HY...
Precipitation efficiency and optical properties of clouds, both central to determining Earth\u27s we...
Most cloud radiation models and conventional data processing techniques assume that the mean number ...
Using a precise definition of clustering, it is shown that in two tropical cumulus clouds, droplets ...
In past work it is argued that rain consists of patches of coherent, physical drop size distribution...
The current understanding of fundamental processes in atmospheric clouds, such as nucleation, drople...
Recent studies have led to the statistical characterization of the flux of drops of a particular siz...
International audienceLike many natural objects, raindrops are distributed in size. By extension of ...
The extent of droplet clustering in turbulent clouds has remained largely unquantified, and yet is o...
The extent of droplet clustering in turbulent clouds has remained largely unquantified, and yet is o...
Recent studies have led to the statistical characterization of the spatial (temporal) distributions ...
The spatial clustering of drops is a defining characteristic of rain on all scales from centimeters ...
Using a unique data set of three dimensional drop positions and masses (the HYDROP experiment), we s...
In recent studies it is shown that in variable rain the spatial distribution of drops is not Poisson...
In this two-part study, the relationships between the width of the cloud droplet size distribution a...
International audienceUsing a unique data set of three-dimensional drop positions and masses (the HY...
Precipitation efficiency and optical properties of clouds, both central to determining Earth\u27s we...
Most cloud radiation models and conventional data processing techniques assume that the mean number ...
Using a precise definition of clustering, it is shown that in two tropical cumulus clouds, droplets ...
In past work it is argued that rain consists of patches of coherent, physical drop size distribution...
The current understanding of fundamental processes in atmospheric clouds, such as nucleation, drople...
Recent studies have led to the statistical characterization of the flux of drops of a particular siz...
International audienceLike many natural objects, raindrops are distributed in size. By extension of ...
The extent of droplet clustering in turbulent clouds has remained largely unquantified, and yet is o...
The extent of droplet clustering in turbulent clouds has remained largely unquantified, and yet is o...
Recent studies have led to the statistical characterization of the spatial (temporal) distributions ...
The spatial clustering of drops is a defining characteristic of rain on all scales from centimeters ...
Using a unique data set of three dimensional drop positions and masses (the HYDROP experiment), we s...
In recent studies it is shown that in variable rain the spatial distribution of drops is not Poisson...
In this two-part study, the relationships between the width of the cloud droplet size distribution a...
International audienceUsing a unique data set of three-dimensional drop positions and masses (the HY...
Precipitation efficiency and optical properties of clouds, both central to determining Earth\u27s we...