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group, you will become part of a vibrant research environment specialising in nonlinear and quantum fluid dynamics. You will also have the opportunity to visit partner institutions and work with leading
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, this challenge is considered for a particularly important class of systems, namely second-order structural dynamics systems with nonlinearities, often encountered in mechatronic and robotic applications. You will
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vector polarisation. These will be used to: Drive and probe spin dynamics in magnetic materials; Demonstrate coherent, low-dissipation magnetic switching; Explore device concepts for THz-driven data
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Systems”: Research focuses on model reduction in linear and nonlinear dynamics, developed within a framework of mechanics, applied mathematics, and physical sciences for engineers. • “Bioengineering
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of tomorrow and creating novel solutions to major global challenges. Our community is made up of 120 nationalities, 14 000 students, 400 professors and close to 5000 faculty and staff working on our dynamic
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professors and close to 5000 faculty and staff working on our dynamic campus in Espoo, Greater Helsinki, Finland. Diversity is part of who we are, and we actively work to ensure our community’s diversity and
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others of the following tasks: Investigate the links between nonlinear dynamics and computing metrics in micro-ring resonators and coupled ring-resonator architectures Evaluate the number and spatial
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between nonlinear dynamics and computing metrics in micro-ring resonators and coupled ring-resonator architectures Evaluate the number and spatial distribution of coupled cavities for photonic reservoir
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consist among others of the following tasks: Investigate the links between nonlinear dynamics and computing metrics in micro-ring resonators and coupled ring-resonator architectures Evaluate the number and
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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