354 web-developer-"https:"-"https:"-"https:"-"Institut-Agro-Rennes-Angers" positions at Monash University
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possess translational symmetry, the role of structure and symmetry in glasses is not established. This research programme involves the development of new x-ray and electron diffraction-based methods
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the evolution of massive binary stars into compact binaries as sources of gravitational-waves and astrophysical inference on gravitational-wave observations. My research group on massive binary evolution -- also
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gases" "Ultrafast dynamics of quantum matter" "Interactions between strongly coupled light-matter quasiparticles" "Atomically thin materials coupled to light" "Periodically driven many-body systems" web
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for physics beyond general relativity with gravitational-waves" (with Prof Eric Thrane) "Improving the sensitivity of gravitational-wave detectors" (with Prof Eric Thrane) web page For further details
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human creativity with intelligent automation, a revitalised Web 2.0 corporate experience focused on user journeys and conversion, digital advertising insourcing for greater agility, and omni-channel
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spectroscopy" "Chemical abundances in star clusters using Korg, the first spectral synthesis code developed in two decades" web page For further details or alternative project arrangements, please contact
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) "Translating new x-ray imaging techniques from the synchrotron to the laboratory" (with A/Prof Marcus Kitchen) "Transforming cancer imaging with x-ray phase contrast" web page For further details or alternative
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electrons and magnetism in topological insulators" "Plasmonics in monolayer materials" web page For further details or alternative project arrangements, please contact: dmitry.efimkin@monash.edu
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supergiant stars right before the explosion Searching different astrophysical channels that produce r-process elements Connecting the properties of long-duration gamma-ray bursts and associated supernovae web
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can occur that are very different to the macroscopic world. Our group develops methods to measure and ‘see’ this atomic detail using some of the world’s most powerful electron microscopes. We apply