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will involve cryptographic design and analysis to support secure, practical implementations for real-world quantum-resistant cryptography. The main application topics will be cryptographic voting, secure
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Description of the offer : The position has a duration of three years and will be part of the Center of Quantum Spintronics at the Department of Physics, NTNU in Trondheim, Norway. The candidate
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waves Phase transitions in the early Universe Numerical quantum and classical field theory Quantum and effective field theory Generalised theories of gravity In the recent EVALNAT evaluation of Norwegian
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the Department). About the project/work tasks The research project will focus on developing quantum hyperheuristics, exploring how quantum computing can enhance hyperheuristic frameworks for solving large-scale
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at Blindern, UiO. Job/ project description The Solid-State Physics and Quantum Technology section, under the Department of Physics/Centre for Materials Science and Nanotechnology is responsible
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independently on the topic. Good knowledge of force field codes (like Gromacs, Lammps, Raspa or similar) and density functional modelling with e.g. Quantum Espresso or VASP is crucial. You must have a good
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experience in computational modelling, reaction mechanisms, and machine learning for catalyst design and discovery. Nova is also a Principal Investigator at the Hylleraas Centre for Quantum Molecular Science
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discovery. Nova is also a Principal Investigator at the Hylleraas Centre for Quantum Molecular Science, a Norwegian Centre of Excellence dedicated to the development and application of advanced computer
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within the duty component of 25 %. Project description / Job description The NorFab infrastructure and Solid State Physics and Quantum Technology research group are investing in equipment for studying
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quantum safe cryptography, as well as novel symmetric encryption algorithms designed for use with advanced protocols, such as fully homomorphic encryption, multi-party computation or zero-knowledge