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protocols for the quantum state engineering of massive objects, taking into account sources of decoherence and noise relevant to current experiments. We examine the emergence and certification of quantum
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from individuals with a degree in a field of mathematics, science, engineering or medical sciences related to the ICFO research activities. Our PhD-program brings together top-level training and teaching
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aspects of this process. The main responsibilities for this position include (but are not limited to) the following: Identify competitive calls relevant for ICFO and promote project proposals based
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program are advised to directly contact the Research Group(s) of interest as part of the application process. We will use internal recommendations from Group Leaders to help identify candidates of interest
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& Simulation Quantum Optics & Quantum Information Nanophotonics, Condensed Matter Physics & Light-Matter Interactions Medical Optics Biophysics, Biophotonics & Super-Resolution Imaging Interested students should
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to the study and develop hybrid materials for energy efficient computing applications. Among others, the candidate will explore the use of perovskite-based materials, interfaces, and junctions, to develop opto
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, physics, material science and electrical engineering) with the aim to develop truly interdisciplinary high impact research typically published in high-impact journal publications. For more information
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to interrogate fundamental mechanical processes in neurons and during development. We primarily use C. elegans due to its many advantages as a genetic model system and its wealth of mutant and cell biological
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Post-doctoral position in personalized cancer therapy in preclinical models guided by diffuse optics
. The successful candidate will join the Medical Optics group led by Prof. Dr. Turgut Durduran to work in a multi-disciplinary project that merges physics, biology and nanotechnology. The project aims to validate
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physics, which traditionally has relied upon powerful particle colliders, e.g. the LHC at CERN. Axions and axion-like particles (ALPs) are well-motivated dark matter candidates that could solve multiple