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research within the Mechanical Engineering department at the University of Southampton, collaborating closely with the Optoelectronics Research Centre. The project involves the innovation of new optical
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-fatigue conditions. However, the conventional development of such alloys has relied heavily on trial-and-error exploration of a vast compositional space defined by elements such as Fe, Cr, Ni, Mn, and Mo
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/qualification Demonstrated expertise and hands-on experience in environmental biotechnology, microbial community engineering, bioreactor operation, and microbial mechanism studies. A strong track record of
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should have required qualifications and experience Education: PhD in Biomedical Engineering, Electronic Engineering, Mechanical Engineering, Materials Science, or related disciplines with a strong academic
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experience in numerical modelling and analysis, particularly in optimisation and/or complex mechanical systems simulation, as well as having a solid understanding of aircraft design and aviation in general
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identifying molecular mechanisms therein. We are looking for a highly motivated candidate with expertise in targeted genetic manipulation of barley plants. The successful applicant will work in a dynamic
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, with emerging techniques able to trace sea surface temperature (SST), salinity and pH. In particular, the concentration of a number of trace elements reflect SST while the boron isotopic composition is
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, you will be based in the Aerodynamics and Flight Mechanics research group comprised of experts in theoretical, computational and experimental methods and our aim is to provide an environment in which
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intelligent flight control systems capable of dynamically adapting to internal changes (e.g., component faults, geometry-configuration changes) and external perturbations (e.g., turbulence). The project will