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Field
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superposition and entanglement to “large” objects that we usually think of as classical particles. This is exactly what you will do at TU Delft. As a PhD student in our teams, you will investigate how
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. The main objective of this project is to unravel the molecular mechanisms of virus self-assembly. RNA-containing viruses are complex, nanometre sized particles with at their centre proteins covering the RNA
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students at the Faculty of Science are fascinated by every aspect of how the world works, be it elementary particles, the birth of the universe or the functioning of the brain. The mission of the Informatics
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at the “small” scale of atoms and molecules. Imagine extending effects like quantum superposition and entanglement to “large” objects that we usually think of as classical particles. This is exactly what you will
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in preparing quantum states of nanoparticles serving as mechanical systems [2] and scaling up the system size to multi-particle arrays [3,4]. By leveraging quantum and many-body resources in levitated
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. The department of Atmospheric Chemistry (ACD) and Atmospheric Microphysics (AMP) research the chemical and physical properties of aerosol particles and their interactions with clouds. Process-based laboratory
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mechanisms of virus self-assembly. RNA-containing viruses are complex, nanometre sized particles with at their centre proteins covering the RNA. We want to find out how these complex assemblies are built up
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-financed by the Interreg Atlantic Area Programme through the European Regional Development Fund Workplan: The PhD plan is aimed at implementing Lagrangian and Eulerian descriptions of the motion of particles
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using laser diagnostics, including: Flow visualization via Particle Image Velocimetry (PIV) Flame structure imaging via OH Planar Laser-Induced Fluorescence (PLIF) Wall temperature measurements via Laser
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members of staff working in education, research or support services. Researchers and students at the Faculty of Science are fascinated by every aspect of how the world works, be it elementary particles