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is able to sense chemical, electrical, and optical signals on its surface with high spatial resolution. Even more specif-ically, we are looking to implement an array composed of photo diodes, ion sen
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try again. 15th April 2024 Languages English English English Researcher in CMOS integrated circuits optical/chemical sensors Apply for this job See advertisement About the position Position as a
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upon the application of high-resolution optical methods that enable functional and kinetic studies of the morphology of brain, bone marrow and liver endothelial cells (ECs) in vitro and in situ. Because
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particular emphasis placed upon the application of high-resolution optical methods that enable functional and kinetic studies of the morphology of brain, bone marrow and liver endothelial cells (ECs) in vitro
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applications. Point defect-based QT facilitates quantum bits based on either the electron spin or photon polarization and is well suited for optical readout using the single photon emitter (SPE) property
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applications. Point defect-based QT facilitates quantum bits based on either the electron spin or photon polarization and is well suited for optical readout using the single photon emitter (SPE) property
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-based QT facilitates quantum bits based on either the electron spin or photon polarization and is well suited for optical readout using the single photon emitter (SPE) property. Importantly, point defect
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activities and collaborations within RITMO. The researchers have access to state-of-the-art facilities in sound/video recording, motion capture, eye tracking, physiological measurements, various types of brain
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activities and collaborations within RITMO. The researchers have access to state-of-the-art facilities in sound/video recording, motion capture, eye tracking, physiological measurements, various types of brain
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to image dynamic fluid flow in a rapidly deforming porous material by leveraging existing optical and velocimetry methods developed at PoreLab Oslo. The scientific objective is twofold: quantifying