For the last 25 years, CO-PDD (Cézeaux-Aulnat-Opme-puy de Dôme) has evolved to
become a full instrumented platform for atmospheric research. It has received credentials as …

The current atmospheric observing systems fail to provide a satisfactory amount of spatially
and temporally resolved observations of temperature and humidity in the planetary …

Cirrus, ie, high, thin clouds that are fully glaciated, play an important role in the Earth's
radiation budget as they interact with both long-and shortwave radiation and affect the water …

Aerosol particles are important due to their direct and indirect impacts on climate. Within the
planetary boundary layer (BL), these particles have a relatively short lifetime due to their …

Abstract We performed extensive Monte Carlo (MC) simulations of single-wavelength lidar
signals from a plane-parallel homogeneous layer of atmospheric particles and developed …

Aerosols influence the Earth radiative budget through scattering and absorption of solar
radiation. Several methods are used to investigate aerosol properties and thus quantify their …

LIDAR is an atmospheric sounding instrument based on the use of high-power lasers. The
use of these lasers involves fulfilling obligations with respect to air safety. In this article, we …

Aerosol particles emitted by both natural and anthropogenic sources have direct and indirect
radiative impacts. Within the planetary mixing layer (ML), these particles are subjected to a …

In this paper, we studied water transport under an unsteady flow regime in an experimental
channel (4 m in length; 3 cm in width). Our experiments implicated some measuring …

We performed Monte Carlo simulations of single-wavelength lidar signals from multi-layered
clouds with special attention focused on multiple-scattering (MS) effect in regions of the …