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two main parts: • numerical modeling of crustal stresses associated with the various proposed mechanisms; • statistical analysis of the impact of these stresses on faults, potentially active or not, and
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values for chiroptical spectra and responses (gabs and glum) and model them accounting for vibronic effects inspired by literature. Various vibronic schemes will be assessed using not only band shapes but
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that give rotaxanes the ability to produce reactive oxygen species, and applications of these architectures in antibacterial photodynamic therapy. Where to apply Website https://amethis.doctorat.org/amethis
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on the candidate’s interests, the project may include field investigations (e.g., paleoseismological trenching, sediment core analysis) and/or numerical modeling of tectonic–erosion–sedimentation interactions. Where
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ESA's TGO CaSSIS, NASA MRO HiRISE and CTX, complemented with insights gained using numerical modelling and analogue field studies on Earth. The results of the project would be relevant both for current