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founded on the distinctive functionalities of this novel state of matter (see, for example, Nature Photonics, http://dx.doi.org/10.1038/s41566-024-01557-1 ). We are seeking a creative and capable researcher
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the target. After that, the isotopes are directed towards an ion source where they are selectively ionized, extracted and accelerated towards an electromagnetic mass separator for further purification before
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the Universe, as well as on their environment and their impact on it. Although detected at high energies, these processes generate emissions covering the entire electromagnetic spectrum, from radio waves
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founded on the distinctive functionalities of this novel state of matter (see, for example, Nature Photonics, http://dx.doi.org/10.1038/s41566-024-01557-1 ). We are seeking a creative and capable researcher
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for publication -APL Photon. March 2025) - Electromagnetic design of microcavities using finite element simulation codes. Main objective: to obtain a predictive model for optimizing light–matter coupling as a
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the electromagnetic and circuit levels, the use of experimental setups for frequency- and time-domain characterization, and the development of acquisition software and realistic models for the analysis of experimental
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experimentally characterized. These optical structures will be designed using electromagnetic and ray-tracing simulators and manufactured using two-photon polymerization-based 3D printing techniques. Where
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commitment: the activities will concern research topics related to the Scientific-Disciplinary Sector IINF02/A – Electromagnetic Fields Where to apply Website http://www.unicas.it Requirements Research
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a new approach to high-frequency electromagnetic (georadar or controlled-source electromagnetic CSEM) data modelling based on full wave 3D inversion to expand our competence in the characterisation
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of conduction electrons (momentum relaxation). To decode and even control the dynamics and coupling of these processes, we develop sensitive optical methods based on ultrashort electromagnetic fields in the THz