Add to ORKGThe majority of cloud radiative forcing studies to date conclude that on a global-level clouds have a net cooling effect on the climate system (e.g. Ramanathan et al. 1989). In contrast, observations and model results o
The present work concerns measurements performed at five Polar sites in order to study the influence...
Clouds affect the arctic atmosphere and surface energy budget through their interactions with longwa...
Clouds regulate the Earth’s radiation budget, both by reflecting part of the incoming sunlight leadi...
The majority of cloud radiative forcing studies to date conclude that on a global-level, clouds have...
An annual cycle of cloud and radiation measurements made as part of the Surface Heat Budget of the A...
Clouds and their radiative impacts are of primary importance to the Arctic climate and thereby the g...
Thesis: S.B., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary...
The patterns of behaviour of clouds, both for cloud area and cloud optical thickness, are studied ov...
The cloud radiative forcing (CRF) quantifies the warming or cooling effects of clouds. To derive the...
The Arctic climate has changed significantly in the last decades, experiencing a dramatic loss of se...
International audienceCloud radiative forcing is a very important concept to understand what kind of...
A radiative–convective model was developed to investigate the sensitivity of climate to cloud optica...
Arctic climate change in winter is tightly linked to changes in the strength of surface temperature ...
Satellite measurements and numerical forecast model reanalysis data are used to compute an updated e...
The simulation of Arctic cloud cover and the sensitivity of Arctic climate to cloud changes are inve...
The present work concerns measurements performed at five Polar sites in order to study the influence...
Clouds affect the arctic atmosphere and surface energy budget through their interactions with longwa...
Clouds regulate the Earth’s radiation budget, both by reflecting part of the incoming sunlight leadi...
The majority of cloud radiative forcing studies to date conclude that on a global-level, clouds have...
An annual cycle of cloud and radiation measurements made as part of the Surface Heat Budget of the A...
Clouds and their radiative impacts are of primary importance to the Arctic climate and thereby the g...
Thesis: S.B., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planetary...
The patterns of behaviour of clouds, both for cloud area and cloud optical thickness, are studied ov...
The cloud radiative forcing (CRF) quantifies the warming or cooling effects of clouds. To derive the...
The Arctic climate has changed significantly in the last decades, experiencing a dramatic loss of se...
International audienceCloud radiative forcing is a very important concept to understand what kind of...
A radiative–convective model was developed to investigate the sensitivity of climate to cloud optica...
Arctic climate change in winter is tightly linked to changes in the strength of surface temperature ...
Satellite measurements and numerical forecast model reanalysis data are used to compute an updated e...
The simulation of Arctic cloud cover and the sensitivity of Arctic climate to cloud changes are inve...
The present work concerns measurements performed at five Polar sites in order to study the influence...
Clouds affect the arctic atmosphere and surface energy budget through their interactions with longwa...
Clouds regulate the Earth’s radiation budget, both by reflecting part of the incoming sunlight leadi...