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of electromagnetic fields with matter, ranging from single atoms to mesoscopic solid-state objects (e.g., dielectric nano and microspheres), across both classical and quantum regimes. We design and optimize novel
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. The successful candidate will be joining the Quantum Nano-Optoelectronics group led by Prof. Dr. Frank Koppens and will develop the following tasks: Fabrication of devices Evaluation of the photoresponse Design of
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. The successful candidate will be joining the Quantum Nano-Optoelectronics group led by Prof. Dr. Frank Koppens. We aim to manipulate materials in a completely different way, by making them strongly interact with
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cumbersome antennas on the receiver side, the main goal of this research project is to replace them by many small satellites, i.e., micro- or nano-satellites or even CubeSats, carrying one smaller antenna each
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adhesion, mechanosensing and downstream mechanosignal transduction. The project involves the application of super-resolution and single molecule tracking approaches in combination with nano-stretcher devices
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. The successful candidate will be joining the Quantum Nano-Optoelectronics group led by Prof. Dr. Frank Koppens and will design graphene-based terahertz receivers and evaluate speed and bit transfer rate. Funded by