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has on the space-time geometry. The aim of the project is to explore the backreaction of quantum fields on black hole space-times. First, the stress-energy tensor for a chosen quantum field is computed
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is available for both UK and international students within the Quantum Device Modelling Group (http://warwick.ac.uk/nanolab ) at the University of Warwick. At the intersection of quantum physics and
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research addressing real-world challenges in quantum information science and technologies. The School is part of the Faculty of Science and Engineering, which fosters cross-disciplinary collaboration and is
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for its industry-focused research addressing real-world challenges in quantum information science and technologies. The School is part of the Faculty of Science and Engineering, which fosters cross
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research addressing real-world challenges in quantum information science and technologies. The School is part of the Faculty of Science and Engineering, which fosters cross-disciplinary collaboration and is
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tensor computed above. For this project, an excellent background in both general relativity and quantum field theory is required. Familiarity with quantum field theory in curved space-time is an advantage
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annual leave, plus 9 buildings closed days for all full time staff. Use our total rewards calculator: https://www.hw.ac.uk/about/work/total-rewards-calculator.htm to see the value of benefits provided by
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to the goals of the national Quantum technology programme. Funding Notes This project is for self funded students or students who have secured external funding only. References https://ldsd.sites.sheffield.ac.uk
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research, bridge quantum computing and omics and shape future of data analysis Apply now to advance the frontier of quantum biotechnology and integrative omics analysis Investing in you - benefits package
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participation in Aalto’s international Quantum Technology BSc program. We welcome research across the broad frontiers of photonics and quantum technologies. A wide range of topics is considered relevant