Zircon and monazite have been studied by quantitative microstructural analysis to constrain deformation processes in both tectonic and shock environments. Results provide new constraints on twinning, shock transformation to high pressure polymorphs and the conditions of formation of impact microstructures. Trace element mobility and modification of U – Pb ages, linked to crystal-plastic deformation in these environments, provides new strategies for dating the timing of deformation events by in situ analyses of microstructurally characterized accessory phases
Microstructural and geochronological analysis of shocked zircon has greatly advanced understanding t...
Plastically-deformed zircon grains from granulite-facies (Ivrea-Verbano Zone, Southern Alps, Italy) ...
Pseudotachylytes resulted from frictional melts associated with ultramylonites in high-grade metapel...
Shock deformation microstructures in monazite have been systematically characterized for the first t...
International audienceImpact-related damage in minerals and rocks provides key evidence to identify ...
International audienceImpact-related damage in minerals and rocks provides key evidence to identify ...
International audienceImpact-related damage in minerals and rocks provides key evidence to identify ...
In this presentation, impact-related deformation microstructures in zircon will be examined in detai...
The deformation of monazite in the polymetamorphic Sandmata granulite complex in India has been inve...
Die Datierung von Deformationsereignissen in der tiefen Kruste kann über die Datierung von plastisch...
Hypervelocity impact processes are uniquely capable of generating shock metamorphism, which causes m...
Shock microstructures in refractory accessory minerals such as zircon and monazite provide crucial e...
Monazite is a robust geochronometer and occurs in a wide range of rock types. Monazite also records ...
We present an electron backscatter diffraction, cathodoluminescence, and radiogenic U-Pb dating stud...
Plastically-deformed zircon grains from granulite-facies (Ivrea-Verbano Zone, Southern Alps, Italy) ...
Microstructural and geochronological analysis of shocked zircon has greatly advanced understanding t...
Plastically-deformed zircon grains from granulite-facies (Ivrea-Verbano Zone, Southern Alps, Italy) ...
Pseudotachylytes resulted from frictional melts associated with ultramylonites in high-grade metapel...
Shock deformation microstructures in monazite have been systematically characterized for the first t...
International audienceImpact-related damage in minerals and rocks provides key evidence to identify ...
International audienceImpact-related damage in minerals and rocks provides key evidence to identify ...
International audienceImpact-related damage in minerals and rocks provides key evidence to identify ...
In this presentation, impact-related deformation microstructures in zircon will be examined in detai...
The deformation of monazite in the polymetamorphic Sandmata granulite complex in India has been inve...
Die Datierung von Deformationsereignissen in der tiefen Kruste kann über die Datierung von plastisch...
Hypervelocity impact processes are uniquely capable of generating shock metamorphism, which causes m...
Shock microstructures in refractory accessory minerals such as zircon and monazite provide crucial e...
Monazite is a robust geochronometer and occurs in a wide range of rock types. Monazite also records ...
We present an electron backscatter diffraction, cathodoluminescence, and radiogenic U-Pb dating stud...
Plastically-deformed zircon grains from granulite-facies (Ivrea-Verbano Zone, Southern Alps, Italy) ...
Microstructural and geochronological analysis of shocked zircon has greatly advanced understanding t...
Plastically-deformed zircon grains from granulite-facies (Ivrea-Verbano Zone, Southern Alps, Italy) ...
Pseudotachylytes resulted from frictional melts associated with ultramylonites in high-grade metapel...
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