The ice microstructure (grain boundaries) is a key feature used to study ice evolution and to investigate past climatic changes. We studied a deep ice core, in Dome Concordia, Antarctica, which records past mechanical deformations. We measured a “texture tensor” which characterizes the pattern geometry and reveals local heterogeneities of deformation along the core. These results question key assumptions of the current models used for dating
To determine active deformation mechanisms in polar ice. We use LM and Electron BackScattered Diffra...
Ice cores are a fantastic tool to study the past climate of our planet. Recently, the European Proje...
This dataset contains 16 movies showing the results of numerically modelling deformation and recrys...
The ice microstructure (grain boundaries) is a key feature used to study ice evolution and to invest...
Various processes on atomic scale (e.g. dislocation climb and glide, diffusionalprocesses etc.) are ...
The flow of ice depends on the properties of the aggregate of individual ice crystals, such as grain...
The flow of ice depends on the properties of the aggregate of individual ice crystals, such as grain...
Microstructures from deep ice cores reflect the dynamic conditions of the drill location as well as ...
Major polar ice sheets and ice caps experience cycles of variable flow during different glacial peri...
Flowing glaciers and ice sheets play key roles in shaping planetary surfaces, and form important fee...
Mechanical properties and deformation behaviour of ice in the huge polar ice masses control the inte...
The Ninth Symposium on Polar Science/Ordinary sessions: [OM] Polar meteorology and glaciology, Wed. ...
International audienceWe have made creep experiments on columnar grained ice and characterised the m...
Subgrain boundaries revealed as shallow sublimation grooves on ice sample surfaces are a direct and ...
Polar ice sheets can be regarded as unique deformation experiments carried out by nature. Compared t...
To determine active deformation mechanisms in polar ice. We use LM and Electron BackScattered Diffra...
Ice cores are a fantastic tool to study the past climate of our planet. Recently, the European Proje...
This dataset contains 16 movies showing the results of numerically modelling deformation and recrys...
The ice microstructure (grain boundaries) is a key feature used to study ice evolution and to invest...
Various processes on atomic scale (e.g. dislocation climb and glide, diffusionalprocesses etc.) are ...
The flow of ice depends on the properties of the aggregate of individual ice crystals, such as grain...
The flow of ice depends on the properties of the aggregate of individual ice crystals, such as grain...
Microstructures from deep ice cores reflect the dynamic conditions of the drill location as well as ...
Major polar ice sheets and ice caps experience cycles of variable flow during different glacial peri...
Flowing glaciers and ice sheets play key roles in shaping planetary surfaces, and form important fee...
Mechanical properties and deformation behaviour of ice in the huge polar ice masses control the inte...
The Ninth Symposium on Polar Science/Ordinary sessions: [OM] Polar meteorology and glaciology, Wed. ...
International audienceWe have made creep experiments on columnar grained ice and characterised the m...
Subgrain boundaries revealed as shallow sublimation grooves on ice sample surfaces are a direct and ...
Polar ice sheets can be regarded as unique deformation experiments carried out by nature. Compared t...
To determine active deformation mechanisms in polar ice. We use LM and Electron BackScattered Diffra...
Ice cores are a fantastic tool to study the past climate of our planet. Recently, the European Proje...
This dataset contains 16 movies showing the results of numerically modelling deformation and recrys...
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