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and leading a programme of numerical simulations relating to all aspects of our research on P-MoPAs; using particle-in-cell computer codes hosted on local and national high-performance computing
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particle physics. Previous experience of LHCb simulation development, testbeam operations or detector commissioning would be advantageous. Candidates are expected to demonstrate the ability to plan and
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demonstrator sites where crushed basalt is being applied. The PDRA will use pH stat experiments with calcite seeds to assess the threshold of elevated alkalinity at which calcite precipitation occurs in filtered
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high-temperature Bose-Einstein condensates to trapped solid-state particles in ultra-high vacuum. We combine advanced quantum optics methods in both discrete and continuous variables with cutting-edge solid-state
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. Responsibilities include working with digital signal processing, advanced filtering techniques, dynamic feature extraction, time-domain and frequency-domain analysis, signal fusion and machine learning to enhance
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. The successful applicant is expected to help produce independent and original research within Royal Holloway’s Centre for Particle Physics and Astronomy, submit publications to refereed journals, and work with and
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high-temperature Bose-Einstein condensates to trapped solid-state particles in ultra-high vacuum. We combine advanced quantum optics methods in both discrete and continuous variables with cutting-edge solid-state
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performance, surface area, and selective permeability. The successful candidate will investigate methods to coating active materials, such as nanostructured coatings, to protect the LFP particles while
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. The core techniques used will be single-particle cryo-EM and in situ cryo-electron tomography, with support from classical cell biology, biochemistry and molecular biology methodologies. The cryo-EM research
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) or equivalent qualifications PhD (or near to completion) in relevant subject area (structural biology or biophysics) Proficiency in at least one of these techniques (e.g., single-particle electron microscopy, NMR