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, quantum computing and quantum cybersecurity applications? Can we scale-up multiphoton platforms by using integrated optics, quantum-dot single-photon sources and customized two-dimensional nonlinear
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wireless transmitters must achieve extremely high linearity and spectral purity while operating with high efficiency. However, transmitter nonlinearities and hardware imperfections introduce distortion
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for our activities on nonlinear and hybrid integrated photonics to carry out experimental research towards realizing hybrid integrated high power tunable lasers and electro-optical frequency combs
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from waveguides on the chip. By using the latest advances in electrooptic nonlinear materials, these waveguides can adjust the brightness and phase of the light at very high speed. The METAPIC project is
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of fundamental quantum science questions. The main activities reach from quantum control of single photons using solid-state photon sources, integrated waveguide technology, tailored nonlinear media and detectors
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of fundamental quantum science questions. The main activities reach from quantum control of single photons using solid-state photon sources, integrated waveguide technology, tailored nonlinear media and detectors
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-Muras, works on the design, analysis and control of biomolecular networks: nonlinear, complex systems – sometimes subject to significant molecular noise- with relevance in cell regulation, signaling and
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have. Additional comments Supervisors team The Computational Synthetic Biology group (CSBG), led by Dr. Irene Otero-Muras, works on the design, analysis and control of biomolecular networks: nonlinear
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scaling limits of conventional silicon electronics. By engineering crystal symmetry and magnetic order through controlled chemical doping, the research aims to tune the quantum metric and realize giant
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towards sustainable flights. However, there are significant challenges in achieving net zero. This project will explore approaches to achieving robust control of the electrical power system for aircraft