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pioneering PhD project exploring how massive stars evolve into gravitational-wave sources. Combine stellar physics, simulations and cutting-edge data to uncover the origins of black holes and neutron stars
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experiments, design and implement advanced detection techniques, analyse data, and carry out numerical trajectory simulations of deceleration and scattering processes. You will have the opportunity to work with
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. Therefore, we provide various training and development schemes. Where you will be working You will join Dr Mengqing Wu’s research group, consisting of one PhD candidate and two postdoctoral researchers
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, simulations and cutting-edge data to uncover the origins of black holes and neutron stars, linking theory with the latest discoveries in this rapidly growing field. It has been just over a decade since the
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experience in programming (e.g. Python, C, Julia). The ability to run large-scale simulations on an HPC cluster is a plus. Additional Information Benefits We will give you a temporary employment contract (1.0
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experiment at the LHC. The project will be conducted in close collaboration with Dr Flavia de Almeida Dias and a postdoctoral researcher in experimental particle physics. Your appointment will be for four
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experiment at the LHC. The project will be conducted in close collaboration with Dr Flavia de Almeida Dias and a postdoctoral researcher in experimental particle physics. Your appointment will be for four
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. You have a good command of spoken and written English. You have experience in programming (e.g. Python, C, Julia). The ability to run large-scale simulations on an HPC cluster is a plus. What we offer
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advanced detection techniques, analyse data, and carry out numerical trajectory simulations of deceleration and scattering processes. You will have the opportunity to work with state-of-the-art and world