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Liverpool John Moores University (LJMU) is a distinctive, unique institution, rooted in the Liverpool City Region and with a global presence. Our students and staff, past, present, and future
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, and robust communication links for operation in complex biological environments. The role involves advanced electromagnetic modelling, system-level simulation, and experimental validation to achieve
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researchers from around the world who are tackling global issues and making a difference in people's lives. The University sits in a beautiful historic city, sharing ownership of a UNESCO World Heritage Site
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radiation of major groups and the impact that plants had on the Earth System. One approach to overcome the limitation of the fossil record is to use deep time ecological modelling to help simulate the early
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imaging Experience with biomechanics concepts and techniques such as AFM, micropipette aspiration and/or nanoindentation Current Home Office Personal Licence Downloading a copy of our Job Description Full
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. Developing simulation models (e.g. COMSOL, ABAQUS, ANSYS) for acoustic field prediction and performance evaluation. Designing, prototyping, and integrating an AI-integrated ultrasonic cleaning system into a
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are seeking a recent PhD astrophysics graduate to work on the analysis and interpretation of data from cosmological hydrodynamics simulations of galaxy formation, particularly from the COLIBRE project
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computing, including an understanding of high-performance computing clusters Downloading a copy of our Job Description Full details of the role and the skills, knowledge and experience required can be found
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transmitter and receiver systems, and robust communication links suitable for operation in complex biological environments. The research will involve advanced electromagnetic modelling, system-level simulation
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synthetic dimensions in molecules confined in rotationally magic traps and (2) the creation of many-body quantum states of molecules in optical lattices for quantum simulation (3) the production of strongly