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multidisciplinary project that combines techniques from quantum sensing, magnonics, ferromagnetic resonance spectroscopy, quantum optics, and nanofabrication. We seek to study the magnetic coupling and decoherence
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probe microscopy (STM/AFM) or with NV centers Good programming skills, ideally in Python Good basics in the field of optics, lasers and quantum physics are helpful Good written and spoken English
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to the development of compact, high-brightness light sources (e.g., compact X-ray sources, highly-efficient terahertz emitters). Our research takes place at the boundary of quantum materials, electron waveshaping and
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field. You will require strong laboratory skills as well as a firm theoretical understanding of quantum optics. Experience in fabricating fibre Bragg gratings by UV inscription is essential. Find out more
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- Quantum nanomaterials and hybrid semiconductor/superconductor heterostructures at the Atomic-Scale - ICN2 & ALBA Synchrotron Research area or group: Advanced Electron Nanoscopy Description of Group/Project
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sensors?”. First, you will set up a table-top experiment using optical tweezers to trap nano- and microspheres in vacuum, a quantum-limited detector to measure their motion and opto-electrical control
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experimental photonic and phononic microsystems. Desirable skills and background include: knowledge of classical and quantum optics, knowledge of classical and quantum acoustics, experience with microfabrication
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internationally leading projects for researchers, and opportunities for partnership with industry and various outreach activities. Read more on www.physics.uu.se Research group The Quantum Material Device group
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field and ideally have a strong background in experimental quantum optics or atomic physics. Previous experience in the field ultracold atoms will be highly desirable. Candidates will be expected
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detectors operating in the UV to FIR wavelength ranges, fibre-optic sensors, lidars, optical communication systems and quantum technologies. You will support the Aeolus-2 DWL (Doppler wind lidar) instrument