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- and microspheres) across both classical and quantum regimes. The group designs and optimizes novel protocols for the quantum state engineering of massive objects, considering sources of decoherence and
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. The CRG is composed by an interdisciplinary, motivated and creative scientific team which is supported both by a flexible and efficient administration and by high-end and innovative technologies. In April
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Materials and Devices (AEMD) group focuses on the material sciences and technology aspects of novel electronic materials, with a strong emphasis on graphene as well as other 2D materials (MoS2). The group
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. The CRG is composed by an interdisciplinary, motivated and creative scientific team which is supported both by a flexible and efficient administration and by high-end and innovative technologies. In April
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. The CRG is composed by an interdisciplinary, motivated and creative scientific team which is supported both by a flexible and efficient administration and by high-end and innovative technologies. In April
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. The postdoctoral candidate will have the opportunity to work in a vibrant project at the intersection of materials science, electrochemistry, optoelectronics, and engineering, as well as utilize state-of-the-art
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to develop highly performant, CMOS compatible, thermal sensor and microbolometer technology. The project aims to revolutionize thermal imaging technologies for automotive, safety and surveillance by developing
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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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Mitigation Accelerated by Photons group led by Prof. Dr. Pelayo García de Arquer is searching for exceptional researchers and engineers, with an excellent proven track record, to develop efficient water