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use imaging surveys at X-ray, optical, infrared and radio wavelengths to measure the emission from stars, active galactic nuclei, warm dust, atomic hydrogen and relativistic electrons. Spectroscopic
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" (with Prof Kris Helmerson) "Wide-field coherent phase imaging of AC magnetic fields" (with Prof Kris Helmerson) web page For further details or alternative project arrangements, please contact
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My primary areas of research activity are two fold: first, studing thermonuclear (X-ray) bursts from accreting neutron stars; and second, searches for optical counterparts of gravitational-wave
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are made where and when; supernovae (mechanisms and nucleosynthesis); gamma-ray bursts and their progenitors; modelling of Type I X-ray bursts and superbursts (thermonuclear explosions on the surface
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of low-temperature scanning tunneling microscopy and spectroscopy, non-contact atomic force microscopy, photoelectron and x-ray absorption spectroscopies, and time-resolved pump-probe techniques. Our experiments
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regime, tidal disruption events, kilonovae and gamma ray burst afterglows. Some examples include: What do the spins of merging black holes tell us about binary evolution? Where are low-mass X-ray binaries
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Peterson). This project combines both theory and experiment. "Geometric-flow across diffraction patterns in 4D scanning transmission electron microscopy” (with Dr Scott Findlay and Dr Timothy Peterson
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My research focuses on the dramatic final stages of massive stars, exploring how they end their lives as gamma-ray bursts, supernovae, and kilonovae. To unravel these mysteries, I employ a
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of Jerusalem – Zelman Cowen Academic Initiatives (ZCAI) Joint Project (Modern X-ray detectors based on 2D metal halide perovskites). These projects aim to develop inorganic nanocrystals with controlled size
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Current reseach is in the areas of: Development of biomimetic structures as ultrasound contrast agents Deep tissue imaging using photoacoustic contrast agents All optical photoacoustic sensors