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for examining and imaging the magnetic fields from exotic conducting materials (e.g. superconductors, topological insulators), performing high bandwidth and high sensitivity vector magnetic sensing and developing
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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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powerful" (with Prof Mandel) "Convection, Rotation, and Magnetic Fields in Massive Stars" (with Prof Mandel) "Numerical Methods for Neutrino Transport" "Connecting supernova explosions to neutron star and
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The goal of my research is to synthesize and characterize low-dimensional nanomaterials with atomic-scale precision and tailored electronic, optoelectronic, magnetic and chemical properties. In my
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magnetic field imaging" "Symmetry of local structures in glasses" (with Dr Amelia Liu and Dr Timothy Petersen) web page For further details or alternative project arrangements, please contact: scott.findlay
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" "Growth and characterisation of 2D topological materials" "Realizing new intrinsic magnetic topological insulators for lossless transport applications" "Understanding the electronic properties of twisted 2D