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simulation of distributed quantum programs - Statistical model checking for approximate analysis of distributed quantum systems Qualification requirements Appointment as postdoc requires academic
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be developed and implemented in the GEOS-Chem chemical transport model, coupled to the Community Earth System Model. Standardized large wildfire events will be simulated based on historical data and
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, the names and email addresses from contact person for reference, and other skills relevant to the position A certified/signed copy of a) PhD certificate and b) Master of Science certificate. If the Ph.D. is
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skills, with the ability to bridge theory and experimental data Experience with computational tools such as MATLAB, Python, and multiphysics simulation platforms (e.g., COMSOL, Ansys) Motivation to engage
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. Proficiency with CST Studio Suite, HFSS, and related full-wave EM simulation workflows. Competence in MATLAB or Python for numerical modelling, data analysis, and optimisation. Ability to conduct experimental
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The ideal candidate will have one or more of the following: A strong research background in optical computing or optical neural networks. Experience in simulation, design, and characterization of silicon
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complete deduction methods for establishing properties of quantum programs - Reduction methods and metrics for quantum systems - Decision diagrams for efficient analysis and simulation of distributed
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, modelling and machine learning to improve defect detection, classification and power loss simulations. Benchmarking field-acquired images with laboratory measurements. Publishing results in leading journals
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. The candidate is hence expected to have most of the following qualifications: Expert knowledge in the control of robots Experience in simulation of robotic systems Experience in design and development of robotic
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Denmark (Odense Campus). The Postdoctoral Fellow is expected to carry out numerical simulations, nanofabrication and experimental characterization of optical metasurfaces with embedded quantum emitters