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from all backgrounds to join our community. The Nonlinear Systems and Control group (https://www.aalto.fi/en/department-of-electrical-engineering-and-automation/nonlinear-systems-and-control ) at Aalto
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developed during this work will deepen our understanding of nonlinear wave phenomena in fluid mechanics and contribute to the broader theory of interfacial flows. This PhD project is in a competition for a
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Identifying and validating models for complex structures featuring nonlinearity remains a cutting-edge challenge in structural dynamics, with applications spanning civil structures, microelectronics
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interactions among neighbouring agents and their environments. The research will exploit an interdisciplinary approach that combines control theory, nonlinear dynamical systems, robotics, and formal methods
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with already developed models and methods for the calculation of vibrations, allowing for strongly nonlinear interactions at friction contact interfaces The overall goal is to develop and gain insight
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industrial SBSP experts, the candidate will explore the nonlinear structural dynamics of LSSs to fully understand the complexity of their control. They will use this foundation to explore idealised and
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About the Partnership This project is one of a number that are in competition for funding from the NERC Great Western Four+ Doctoral Training Partnership (GW4+ DTP). The GW4+ DTP consists
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to understand how the properties of thin quantum-fluid films—systems that behave in strikingly non-classical ways—are affected by surface geometry. Two key cases will be investigated: quantum fluids confined to a
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. The Landau-de Gennes theory is a variational theory and the physically admissible configurations are modelled in terms of solutions of appropriately defined boundary-value problems for systems of nonlinear
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systems and nonlinear optics, THz generation and spectroscopy, magnetic thin-film growth and spintronic device fabrication, data acquisition and simulation. You will be supported by experts in experimental