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utilise numerical techniques including the finite element method to describe biofluid flow and deformation in the human brain tissue. Parameters are inferred from clinical data including medical images
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your online application for a place on your chosen Postgraduate Research programme by 13 January 2025. For what to do before applying, please see the Additional Information section. To enter
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programme +2 - covering 2 years of study for current postgraduate researchers 1+3 - covering Master's and Doctoral study Please see Additional Information for 1+3 and +2 application processes. Tenable period
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+2 - covering 2 years of study for current postgraduate researchers Please see Additional Information the +2 application process. Tenable period Studentships available for both part-time and full-time
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For project background information, please read our review: Jukes et al., How can the potential of the duocarmycins be unlocked for cancer therapy? Drug Discov Today, 2021 Feb;26(2):577-584. Link to paper Who
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combination of academic and industrial challenges which will enhance the student’s ability to tackle complex intellectual and practical aspects of computer vision and robotics. We are seeking talented
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excellent opportunity to work on a novel mechatronics/robotics system with strong links to industrial applications and key skills and knowledge in preparation for a high-impact, high-technology research
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presentations and written reports This is an excellent opportunity to work on a novel robotic system with strong links to industrial applications and key skills and knowledge in preparation for a high-impact
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propagation as these voids link to form larger fractures. Traditional damage modelling techniques, often struggle to capture these intricate behaviours accurately, particularly in dynamic scenarios. Phase-field
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involve close links to experimentalists with the chance to test out results at leading XFEL facilities in Europe/USA. Outcomes will include an enhanced understanding of stochastic processes like ion hops in