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Jonathan Breeze in the Department of Physics & Astronomy, University College London. Rydberg atoms, highly excited electronic states, offer exciting opportunities for exploring quantum light-matter
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to domain experts in partnering international institutions (University College London, Institute for Advanced Architecture of Catalonia Barcelona, the Royal Danish Academy of Fine Arts Copenhagen), and peak
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opportunities for exciting employment prospects at PhD completion. You will also have access to domain experts in partnering international institutions (University College London, Institute for Advanced
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opportunities for exciting employment prospects at PhD completion. You will also have access to domain experts in partnering international institutions (University College London, Institute for Advanced
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employment prospects at PhD completion. You will also have access to domain experts in partnering international institutions (University College London, Institute for Advanced Architecture of Catalonia
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opportunities for exciting employment prospects at PhD completion. You will also have access to domain experts in partnering international institutions (University College London, Institute for Advanced
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employment prospects at PhD completion. You will also have access to domain experts in partnering international institutions (University College London, Institute for Advanced Architecture of Catalonia
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opportunities for exciting employment prospects at PhD completion. You will also have access to domain experts in partnering international institutions (University College London, Institute for Advanced
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International Centre for Translational Eye Research / Institute of Physical Chemistry, Polish Academy of Sciences | Poland | 28 days ago
between Institute of Physical Chemistry PAS and University College London, UK. The International Centre for Translational Eye Research (ICTER) is a multi-investigator center for eye research related
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Engineering, University College London (UCL) Project Description: Functional Near-Infrared Spectroscopy (or fNIRS) is an optical neuroimaging technique that uses NIR light to image the cortical brain changes