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Social Science PhD Opportunity on Home Helper Robots Job No.: 678806 Location: Caulfield campus Employment Type: Full-time Duration: The scholarship may be held for up to 3.5 years (fulltime
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the theoretical effort on light-matter coupled systems. I have projects available within the following areas, all of which can be tailored to either honours or PhD level. "Quantum impurities in quantum gases
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My work focuses on experimental research in quantum sensing and quantum microscopy using the nitrogen-vacancy (NV) centre in diamond. In particular, we are interested in applying quantum sensing
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I am an experimental particle physicist and I specialise in the study of particles containing the beauty and charm quarks. My research aims to help improve our understanding our universe by comparing our experimental observations to predictions made using the Standard Model of Particle...
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are supported by quantum mechanical theoretical formalisms. Our fundamental findings yield promise for future applications in electronics, optoelectronics, spintronics, information processing and storage, sensing
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insulators and Weyl semimetals. The former favours quantum states of matter (e.g. excitonic superfluidity, quantum magnetism, superconductivity), while the latter makes their optical and transport properties
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, craftspeople, re-use and repair experts or troubleshooters). Fieldwork for the PhD will be undertaken in Australia. The EOI for this position should: outline your interest in being a PhD candidate within
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PhD research opportunity -The economics of preventing future health inequalities - Project-specific PhD opportunity in the Centre for Health Economics, Monash Business School Job No: 667935 Location
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research under an expert academic supervisor. You will use your research to write a thesis that makes a positive impact on knowledge in your chosen field. You can undertake your PhD as part of the Monash
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Fellowship at LMU Munich, and a postdoc position at RMIT University. My nanophotonics research seeks to uncover the underlying physics in structured light-matter interactions at nanoscale. We aim to develop