Add to ORKGThe overall goal of the Aeronomy of Ice in the Mesosphere (AIM) experiment is to resolve why Polar Mesospheric Clouds form and why they vary. By measuring PMCs and the thermal, chemical and dynamical environment in which they form, we will quanti@ the connection between these clouds and the meteorology of the polar mesosphere. In the end, this will provide the basis for study of long-term variability in the mesospheric climate and its relationship to global change. The results of AIM will be a rigorous validation of predictive models that can reliably use past PMC changes and present trends as indicators of global change. The AIM goal will be achieved by measuring PMC extinction, brightness, spatial distribution, particle size distributions...
This study focuses on the effects of polar mesospheric cloud (PMC) formation on the chemical environ...
We have analysed MIPAS (Michelson Interferometer for Passive Atmopheric Sounding) infrared measureme...
The focus of this research is to improve the understanding of ice nucleating aerosol particles (IN) ...
AbstractObservations by the Cloud Imaging and Particle Size (CIPS) instrument on the Aeronomy of Ice...
The Tenth Symposium on Polar Science/Special session: [IW] Whole atmosphere, Wed. 4 Dec. / 3F Semino...
The cloud imaging and particle size (CIPS) experiment is one of three instruments on board the Aeron...
Two sounding rocket payloads were launched from Andøya Space Centre (69.29 N, 16.02 E) during the su...
International audienceClimate simulations suggest that cloud feedback plays an important role in the...
We have implemented full CO ice cloud microphysics into the LMD Mars Global Climate Model (MGCM) and...
International audienceThe high sensitivity of the polar regions to climate perturbation, due to comp...
[1] This paper quantitatively evaluates the influence of ice particles on the K layer by using radar...
Although many new details on the properties of mesospheric ice particles that farm Polar Mesospheric...
We present in situ observations of mesospheric ice particles with a new particle detector which comb...
This study focuses on the effects of polar mesospheric cloud (PMC) formation on the chemical environ...
We have analysed MIPAS (Michelson Interferometer for Passive Atmopheric Sounding) infrared measureme...
The focus of this research is to improve the understanding of ice nucleating aerosol particles (IN) ...
AbstractObservations by the Cloud Imaging and Particle Size (CIPS) instrument on the Aeronomy of Ice...
The Tenth Symposium on Polar Science/Special session: [IW] Whole atmosphere, Wed. 4 Dec. / 3F Semino...
The cloud imaging and particle size (CIPS) experiment is one of three instruments on board the Aeron...
Two sounding rocket payloads were launched from Andøya Space Centre (69.29 N, 16.02 E) during the su...
International audienceClimate simulations suggest that cloud feedback plays an important role in the...
We have implemented full CO ice cloud microphysics into the LMD Mars Global Climate Model (MGCM) and...
International audienceThe high sensitivity of the polar regions to climate perturbation, due to comp...
[1] This paper quantitatively evaluates the influence of ice particles on the K layer by using radar...
Although many new details on the properties of mesospheric ice particles that farm Polar Mesospheric...
We present in situ observations of mesospheric ice particles with a new particle detector which comb...
This study focuses on the effects of polar mesospheric cloud (PMC) formation on the chemical environ...
We have analysed MIPAS (Michelson Interferometer for Passive Atmopheric Sounding) infrared measureme...
The focus of this research is to improve the understanding of ice nucleating aerosol particles (IN) ...