We seek a passionate and committed candidate to work on the fabrication and development of quantum devices with the long-term goal of building a scalable and error free quantum computer and related quantum metrology. The design of relevant quantum devices and the development fabrication recipes for realising such devices will be a crucial area of research and development.
We are seeking for an outstanding candidate to join in our project aimed at developing an innovative analytical platform combining optical microscopy, microfluidic devices and IR spectro-microscopy. The development of an optimized microfluidic set-up is one of a key elements of this interdisciplinary project. A new kind of such devices, compatible with both IR spectroscopy and optical microscopy, is required to allow for the observation of live biological samples (e.g. cells and tissues). Moreover, the microfluidic set-up need to be developed in junction with the optical system, which is based on and original approach using quantum correlation for the detection of IR signal (see A. Paterova et al., "Hyperspectral infrared microscopy with visible light", Science Advances, 6(4428), 2020).
The James C. Wyant College of Optical Sciences at the University of Arizona is seeking a candidate for the position of a research scientist with a strong theoretical background in quantum optics and quantum information theory.
The James C. Wyant College of Optical Sciences at the University of Arizona is seeking a candidate for a PI-eligible senior experimentalist research scientist, who will lead and oversee a substantial experimental project on quantum repeater development within the NSF-funded Center for Quantum Networks. The ideal candidate would have a strong graduate research experience in quantum non-linear optics with a focus on squeezed light generation and manipulation.
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