296 high-performance-quantum-computing-"https:"-"https:"-"https:"-"https:"-"https:"-"Univ" positions in Switzerland
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models, and unsupervised learning to identify high-order structure in neural and molecular data. • Conduct statistical modeling of temporal trajectories and population dynamics across thousands of neurons
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correspond to the electron-phonon and anharmonic phonon-phonon coupling elements. With these, dedicated scattering rates can be computed and then used in quantum transport simulations. Down the line, we aim
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projects, ensuring high methodological standards, reproducibility, and robust analytical workflows. Responsibilities include: Leading computational analyses of single-cell, spatial transcriptomics, and multi
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The Doctoral Program in Literary Studies of the University of Basel calls for applications for one or two one-year start-up grants of CHF 32,000 (beginning October 1, 2026). The grant is designed
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and enthusiasm for designing and running high-quality programs and for creating opportunities that enable collaboration and growth. You will be responsible for the implementation and execution
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the power of both classical and quantum computing resources? How can we exploit or take inspiration from quantum physics to develop cutting-edge machine learning? Your work will encompass a diverse array of
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Your tasks The wide bandgap of nitrides enables a broad range of high-power and high-frequency applications, spanning from 5G telecom to advanced optoelectronic and, recently, quantum devices
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-phonon coupling elements. With these, dedicated scattering rates can be computed and then used in quantum transport simulations. Down the line, we aim to pre-train a common GNN backbone model capable
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. The deadline for applications for this Fall Call is April 20, 2026. Please submit your application to our PhD program or our MD-PhD program online. Where to apply Website https://www.fmi.ch/education-careers
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have enabled unprecedented control over light-matter interactions, catalyzing breakthroughs in imaging, nonlinear optics, and photonic computing. We leverage these developments to advance the field