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Heritage, Technology and Territory of the Autonomous University of Lisbon and the Polytechnic Institute of Tomar. Scientific Area: History Specific Scientific Area: Archaeology /Rock Art Requirements
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relevance to extraterrestrial environments and future energy strategies. Job description The PhD project will explore: Mechanochemical radical generation during rock fracturing and its role in water splitting
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of radionuclides through rock layers. The successful candidate will work in an interdisciplinary team investigating the diffusion of radionuclides (U, Pu, Am) and decay products (Zr) through rock minerals triggered
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. Colloid-borne transport processes can govern the migration behavior of radionuclides. In this respect, the kinetics of their interaction with both the colloids and the solid rock is of critical importance
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is limited to three years. The successful candidate will work in an interdisciplinary team investigating the diffusion of radionuclides (U, Pu, Am) and decay products (Zr) through rock minerals
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academic qualification (usually PhD). Tasks: The evaluation of potential final repositories for radioactive waste requires precise knowledge of the sorption and diffusion of radionuclides through rock layers
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extremely challenging. A rock typically contains a mixture of magnetic grains of different sizes and compositions, which may have undergone thermal or chemical transformations after their formation (e.g
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of the project: Long before modern humans were thought to have arrived in Eurasia, advanced stone tool technologies were already present in Central Asia. Recent discoveries in Uzbekistan reveal that blade
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highly effective, but inherently energy-intensive and requires the construction of large tailings storage facilities to manage waste rock and processing by-products. This approach has caused widespread
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to inform and enhance reactive flow simulators, ultimately contributing to a better understanding of the impacts of dissolved CO2 on fluid flow dynamics and rock reactivity at larger scales within