20 postdoc-in-thermal-network-of-the-physical-building Postdoctoral positions at The University of Arizona
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Postdoc Research Scholar position requires a highly motivated and dynamic scientist with a doctoral degree in Physics or Chemistry, preferably with a strong publication record. Outstanding UA benefits
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at Biosphere 2. Together with an interdisciplinary team of scientists, the Postdoc will develop upscaling methods to estimate ecosystem scale transpiration based on locally observed energy balance partitioning
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) located at Biosphere 2. Together with an interdisciplinary team of scientists, the Postdoc will develop upscaling methods to estimate ecosystem scale transpiration based on locally observed energy balance
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that influence volatile organic compound (VOC) cycling in soil. The Postdoc will track the fate of VOC carbon soil incubations in the laboratory and plant rhizospheres in growth chambers. The Postdoc scholar will
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funding and contribute to lab-based grant proposals. Minimum Qualifications PhD or MD conferred by the start date and 0-2 years of experience at Postdoc rank. Preferred Qualifications FLSA Exempt Full Time
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research as a graduate student or early-level postdoc. Please note that U.S. citizens or green card holders will receive top preference due to eligibility for NIH postdoctoral fellowships. However
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-based astrophysics with strong interdisciplinary programs across the Departments of Astronomy, Physics, Planetary Sciences, and Optical Sciences. Home to the Richard F Caris Mirror Lab, a founding member
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of this position will be development of custom neural networks for functional annotation of protein sequences. This is an Extended Temporary Employment (ETE) position. Outstanding UA benefits include health, dental
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research environment in space science and astrophysics with strong interdisciplinary programs across the Departments of Astronomy, Physics, Optical Sciences, and Planetary Sciences. We provide direct access
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is available through an AFOSR-funded project, focusing on theoretical investigations at the interface of quantum optics, atomic physics, and many-body physics. The project explores how atomic arrays