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Margolis, Ph.D., uses advanced imaging, physiological, anatomical, and behavioral techniques to study the neural underpinnings of sensorimotor integration. We use in vivo two photon microscopy and widefield
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Device Microfabrication and Material Characterization. The position will begin as early as August 2024, and looks to support Development of Novel Photon Detectors. Candidate will work in Prof. Reihani’s
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-specific outputs. Our work combines a portfolio of diverse techniques including quantitative mouse behavior, cellular and subcellular resolution two-photon microscopy, optogenetics, viral-based anatomical
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Device Microfabrication and Material Characterization. The position will begin as early as August 2024, and looks to support Development of Novel Photon Detectors. Candidate will work in Prof. Reihani’s
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pathological feeding and reward processes. Applicant must hold a PhD or equivalent degree in neuroscience, biochemistry, molecular biology, psychology, computer science, biomedical engineering, biology, or other