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- Institute of High Pressure Physics of the Polish Academy of Sciences
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optimization of experiments based on SPAD arrays, the quantitative characterization of detector-related error sources (such as inter-pixel crosstalk and dark counts), and the development of tools for extraction
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the Purcell effect, which in the optimal case will allow for indistinguishability of emitted photons. Candidate should have MSC title from physics, material science or chemistry: Knowledge of nitride micro-LED
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the optimal case will allow for indistinguishability of emitted photons. Candidate should have MSC title from physics, material science or chemistry: Knowledge of nitride micro-LED processing will be required
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communication skills in English, 4. Programming skills are desirable (Julia, Python, convex optimization and semidefinite programming). Task description: The project focuses on analytic and geometric properties
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Description Scope of duties (full-time, on-site post-doctoral position): a. Synthesis of metallic nanostructures (both bare and surface-functionalized), b. Optimization of materials intended for the fabrication
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the territory of Poland. Documented experience in conducting research in microbiology, mycology or molecular biology. Experience in either library preparation and optimization for next generation sequencing
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surface-emitting lasers with MHCG subwavelength diffraction grating mirrors): • Optimization by means of computer simulations of MHCG mirrors, • Finding the best strategies for efficient heat flow in
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management of advanced optical systems (with pulsed-lasers, nonlinear optics, polarisation optics and microscopy operation). 2. Bioimaging experiments – development of optimal protocols taking into account the
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work will consist of selection of optically compatible dyes for the donor-acceptor system and its further optimization (incl. concentration, component ratio, solvent used) to ensure the desired optical
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aims to compare the optimality of the various quantum network setups and protocols, estimate their cost, and design more optimal solutions if needed. The candidate as the key member of the DIFFQRN