Magmas often experience severe disequilibrium conditions during their migration through the Earth’s crust and the subsequent emplacement on its surface. During their transport, magmas are subjected to a wide range of cooling (q) and deformation rates (˙γ), generating physico-chemical perturbations in the magmatic system able to inhibit or promote crystallization processes. Quantifying the magnitude and timescale of kinetic effects is essential to correctly constrain the rheological evolution of magmas and their ability to flow. Here we present a suite of cooling deformation experiments (CDE) conducted on a basalt from Mt. Etna (Sicily, Italy) to disentangle and model the concurrent effects of q(from 1 to 10◦C/min) and ˙γ(from 1 to 10 s−1) o...
Two sets of cooling experiments were run at 500 MPa conditions for one anhydrous and one hydrous (H2...
The majority of basaltic magmas stall in the Earth's crust as a result of the rheological evolution ...
International audienceThe viscosity of three molten basalts produced by fusion of lavas issued from ...
The pāhoehoe—‘a‘ā morphological transition involves a change in the rheological response of the magm...
The pāhoehoe—‘a‘ā morphological transition involves a change in the rheological response of the magm...
Large volcanic eruptions are frequently triggered by the intrusion of hot primitive magma into a mor...
""Our ability to forecast volcanic hazards at active volcanoes stems from our knowledge of parameter...
High‐temperature experiments were performed in order to shed new light on the shear‐rate controls on...
The eruptive dynamics of volcanic systems are largely controlled by the viscosity of deforming magma...
The viscosity of a crystal-bearing shoshonite from Vulcanello (Aeolian Archipelago, Italy) was measu...
Experimental data have been obtained for viscosities of tholeiite melts at temperatures from 1300 to...
The effects of crystal nucleation and growth on the viscosity of andesitic magmas are investigated a...
Lava flows are a common hazard at basaltic to intermediate volcanoes in general and have posed a sig...
Two sets of cooling experiments were run at 500 MPa conditions for one anhydrous and one hydrous (H...
Two sets of cooling experiments were run at 500 MPa conditions for one anhydrous and one hydrous (H2...
The majority of basaltic magmas stall in the Earth's crust as a result of the rheological evolution ...
International audienceThe viscosity of three molten basalts produced by fusion of lavas issued from ...
The pāhoehoe—‘a‘ā morphological transition involves a change in the rheological response of the magm...
The pāhoehoe—‘a‘ā morphological transition involves a change in the rheological response of the magm...
Large volcanic eruptions are frequently triggered by the intrusion of hot primitive magma into a mor...
""Our ability to forecast volcanic hazards at active volcanoes stems from our knowledge of parameter...
High‐temperature experiments were performed in order to shed new light on the shear‐rate controls on...
The eruptive dynamics of volcanic systems are largely controlled by the viscosity of deforming magma...
The viscosity of a crystal-bearing shoshonite from Vulcanello (Aeolian Archipelago, Italy) was measu...
Experimental data have been obtained for viscosities of tholeiite melts at temperatures from 1300 to...
The effects of crystal nucleation and growth on the viscosity of andesitic magmas are investigated a...
Lava flows are a common hazard at basaltic to intermediate volcanoes in general and have posed a sig...
Two sets of cooling experiments were run at 500 MPa conditions for one anhydrous and one hydrous (H...
Two sets of cooling experiments were run at 500 MPa conditions for one anhydrous and one hydrous (H2...
The majority of basaltic magmas stall in the Earth's crust as a result of the rheological evolution ...
International audienceThe viscosity of three molten basalts produced by fusion of lavas issued from ...