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Vacancies PhD position for Ultra-low loss silicon nitride waveguides for quantum delay lines. Key takeaways We are looking for a enthusiastic PhD candidate to work on ultra-low loss silicon nitride
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staff position within a Research Infrastructure? No Offer Description We are looking for a enthusiastic PhD candidate to work on ultra-low loss silicon nitride waveguides for quantum delay lines. You will
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out this work, and optical characterization in the facilities of the research group. The projects will leverage our expertise in the development of low-loss waveguides for integrated photonics
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leverage our expertise in the development of low-loss waveguides for integrated photonics consolidating our international position in this field. The project is carried out in collaboration with industrial
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integrated photonics with low-power modulation utilizing the high piezo-electronic coefficient of materials. New processing routes will be developed to integrate these materials with SiN waveguides. We
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that are suitable for novel devices and circuits. In the beginning, the challenges will include the investigation of highly controlled doping profiles for optimization of waveguide propagation loss, as
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(quantum advantage) as well as for producing resources states for universal quantum computation. Important aspects of this project are dispersion engineering of the waveguides and setting up a bulk photon
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(quantum advantage) as well as for producing resources states for universal quantum computation. Important aspects of this project are dispersion engineering of the waveguides and setting up a bulk photon
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groundbreaking research in low-loss silicon nitride integrated photonics for security applications. Dive into the world of nanofabrication in UT's cutting-edge Nanolab, where you'll craft waveguides, analyze
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platform development and integration of the plasmonic-hybrid material into the waveguide system. This PhD position is opened particularly targeting the design of photonic devices, hosting the plasmonic