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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 candidate will be joining the Medical Optics research group led by Prof. Turgut Durduran who is looking for a postdoctoral fellow for the development, testing and deployment of next generation
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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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for the industry. More specifically, optical and electrical properties will be tailored to achieve the required functionalities. The proposed work involves design, fabrication and testing of the surfaces with
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Post-doctoral position in personalized cancer therapy in preclinical models guided by diffuse optics
. The successful candidate will join the Medical Optics group led by Prof. Dr. Turgut Durduran to work in a multi-disciplinary project that merges physics, biology and nanotechnology. The project aims to validate
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. The successful candidate will be joining the Medical Optics research group led by Prof. Turgut Durduran who is looking for a postdoctoral fellow for joining our activities in carrying out clinical studies and
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to the presence of two valence electrons, it has a rich electronic structure with two sets of optical transitions. This enables efficient cooling using a narrow-linewidth transition and simplifies fluorescence
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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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detection, devices with advanced functionalities etc.) Many advanced tools will be available such as (dilution) cryostats with optical access, cryogenic scanning near-field microscope, optical quantum twist
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structures and integrated them on a chip for optical and/or electrical excitation. Those proof-of-concept devices will then be tested in show case examples to demonstrate potential for real-world applications