25 quantum-computing "Fraunhofer Gesellschaft" research jobs at Institute of Photonic Sciences
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. The successful candidate will be joining the Macroscopic Quantum Optics Theory group led by Prof. Dr. Oriol Romero-Isart. The group has several active research theoretical topics focused on the interaction
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. The successful candidates will be joining the Quantum Photonics with Solids and Atoms group led by Prof. Dr. Hugues de Riedmatten. The group has experience in quantum technologies for quantum networks, including
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. The successful candidate will be joining the international QTWIST program that includes Prof. Jarillo-Herrero (MIT) and Amir Yacoby (Harvard) as well as research groups of Prof. Adrian Bachtold, Prof. Carmen Rubio
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. The successful candidate will be joining the Atomic Quantum Optics group led by Prof. Dr. Morgan Mitchell in an experiment on the interaction of single photons and entangled photon pairs with individual trapped
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. The successful candidate will be joining the Quantum Information Theory group led by Prof. Dr. Antonio Acín and will be working within the project QSNP. It consists of a consortium of research institutes, industry
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. The successful candidate will be joining the international QTWIST program that includes new joint laboratories of Prof. Jarillo-Herrero (MIT) and research groups of Prof. Adrian Bachtold, Prof. Carmen Rubio Verdú
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to develop novel scalable technologies for quantum optical communications. The project is on developing quantum materials and photonic structures to operate in the telecom wavelength as quantum light sources
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. The successful candidate will be joining the Ultracold Quantum Gases group led by Prof. Dr. Leticia Tarruell. During the last years, strontium is emerging as an atom of choice for quantum simulation. Due
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-inspired algorithms, and (ii) protocols to benchmark and validate current and near-term quantum computing devices and simulators. Share this opening! Use the following URL: https://jobs.icfo.eu/?detail=862
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lasers based on colloidal quantum dot technology. The aim is to develop the first chip-integrated infrared quantum dot laser emitting in the telecom wavelength regime as well as in longer wavelengths