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resources and understanding how nanoscale structures and modifications can control the formation of spherical photonic materials and their optical properties? This PhD position may be for you! In this project
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laser pulses to create (periodic) assemblies of nanosized chiral spin textures on demand. These tunable structures are predicted to host topological spin waves, and will provide a unique playground to
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numerical methods for the inverse design of nanophotonic structures enabling broadband, multiparameter sensing in fiber-based systems. The project is a collaboration between AMOLF, TU Eindhoven, and
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, express, purify, and study these to elucidate the relation between IBP structure and function and explore the application potential of IBPs as cryoprotectants. In this project you will combine computational
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to cracking, corrosion, and a lack of structural redundancy. In the Netherlands, the safety of these structures depends on the integrity of the lower nibs. These are typically slab structures that are known as
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builds on our recent works (https://www.nature.com/articles/s41467-025-65282-1 and https://www.nature.com/articles/nature20605 ). Join our team in the https://pomplunlab.com and https
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behaviour of structures and systems, contribute to our courses in Dynamics, and build a strong research and education team within an internationally oriented academic environment. Job description As a Full
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Circuits Project description: Neuronal synapses are remarkably heterogeneous and dynamic structures that vary widely in molecular composition, nanostructure, and signaling strength. This rich variety
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hidden patterns from them? Do you enjoy exploring mathematical models and working with network data? Join our team! Job description Complex systems are often modeled with networks, structures where
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. The result is a new class of living composite materials that are not only structurally resilient but also inherently sustainable, moving us toward a future where infrastructure is grown, not just built