459 high-performance-quantum-computing-"https:"-"https:"-"https:"-"https:" positions at University of Sheffield
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Organic quantum batteries: the development of high-performance energy storage devices (S3.5-MPS-Lidzey) School of Mathematical and Physical Sciences PhD Research Project Competition Funded Students
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Virtual manufacturing of discontinuous fibre composites for high-performance automotive and aerospace structures (C3.5-MAC-Qian) School of Mechanical, Aerospace and Civil Engineering PhD Research
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Award at the University of Sheffield. Imagine being able to check that a powerful quantum computer has performed a calculation correctly without having to repeat the computation or learn the private data
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Computational Astrochemistry/Algorithm development for Quantum Dynamics Calculations School of Mathematical and Physical Sciences PhD Research Project Self Funded Prof AJHM Meijer Application
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Photonics for the scale up of quantum sensors (S3.5-ELE-Smith) School of Electrical and Electronic Engineering PhD Research Project Competition Funded Students Worldwide Dr Joe Smith, Dr Kristian
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High-Performance Laser Powder Bed Fusion of Polymer Parts Using Quantum Cascade Laser Arrays School of Electrical and Electronic Engineering PhD Research Project Self Funded Dr Kristian Groom
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Quantum-Enhanced Hardware Tokens (S3.5-COM-Delavar) School of Computer Science PhD Research Project Competition Funded Students Worldwide Dr Mahshid Delavar, Dr Prosanta Gope Application Deadline
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Overview We are seeking an experienced Service Performance Analyst to join our IT Service Operations Team. This specialist role will transform complex operational data into actionable insights
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at the University of Sheffield. The unique properties of particles of light (photons) can enable a host of new technologies, such as quantum computing and networking. However, the realization of these technologies
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for years without maintenance 2) High-performance computing by integrating Quantum Dots. They are considered truly deterministic single-photon sources and key resources for quantum photonic technologies