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. The successful candidate will be joining the Atomic Quantum Optics group led by Prof. Dr. Morgan Mitchell and the tasks and responsibilities will be: Conduct experimental research in the following
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quantum simulator. The goal is to construct a new experimental tool based on a graphene superlattice to not only measuring macroscopic observables, such as electrical resistivity and magnetization, but also
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and Prof. Frank Koppens (ICFO). We are seeking a highly motivated and skilled Quantum Materials Research Scientist to join our cutting-edge project, focusing on the exploration and development
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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
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. The successful candidate will be joining the Atomic Quantum Optics group led by Prof. Dr. Morgan Mitchell. Searches for new particles and forces using table-top experiments is an expanding frontier of fundamental
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performant, CMOS compatible, infrared colloidal quantum dot photodetectors and light emitters exploiting intersubband transitions. The project is focused in the mid and long wave infrared employing colloidal
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Spectroscopy Description of Group/Project: The AMS group focus on the atomic-scale engineering of the quantum properties of novel nanomaterials. Our aim is to understand and control quantum phenomena with atomic
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spectroscopy (EDS) and electron energy loss spectroscopy (EELS). The research will involve state-of-the-art nanomaterials for energy and environmental applications as well as nanomaterials for quantum
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developing fundamental ideas with great potential for revolutionizing future photonic products. The candidates will work on projects related to classical and quantum photonic integrated circuits (PICs) and