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particular, we will use topology and shape optimisation methods to compute the optimal domain shapes that can stabilise solutions with desired/prescribed properties. We will use methods from inverse problems
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robotics. The department plays an active role in transferring inventions and results into applications in close collaboration with industrial partners worldwide. You can read more about the department
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of the structure of power distribution networks and the impact of LCTs on network capacity Experience of formulating optimization problems and solving using appropriate methods Understanding of the potential use
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the other 14 PhD students in the doctoral network, including 3 training schools. As a participant of the project, the PhD student will become part of a team at DTU with expertise in nonlinear optics in
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devices on SiCOI; Design, fabricate, characterize, optimize and evaluate the performance of integrated circuits for the later prototyping and system application. Where to apply Website https://efzu.fa.em2
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; Character, optimize and evaluate the performance of devices and circuits for the later prototyping and applications. Where to apply Website https://efzu.fa.em2.oraclecloud.com/hcmUI/CandidateExperience/en
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them with pump diode laser; Character, optimize and evaluate the performance for the integrated laser system Where to apply Website https://efzu.fa.em2.oraclecloud.com/hcmUI/CandidateExperience/en/sites
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knowledge gaps. The project involves both linear and nonlinear dynamics modelling and analysis, as well as experimental testing. An equivalent test structure will first be constructed in the vibration
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devices. Yet, predicting and exploiting nonlinear behaviour, particularly the role of modal couplings in energy transfer and dissipation, remains a fundamental challenge. This PhD project offers a unique
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the second direction, you will explore the geometric design of nonlinear systems. Using nonlinear reduced order modelling (ROM) integrated with optimization algorithms, you will design structures