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developing and clinical risk populations (e.g., psychosis, depression) focusing on hormones, neurodevelopment, biomarkers, and scale development. We use a wide variety of behavioral, modeling, and neuroimaging
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modelling, theoretical physical organic chemistry and electronic structure theory to advance our understanding of chemical reactivity. We aim to develop new concepts and computational tools to drive
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testing of model-free algorithms for real-time optimization of turbine operating conditions (e.g., yaw set points). Other projects may be assigned by the supervisor depending on skills and technical needs
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information and identifying/characterizing neuromodulatory (e.g. serotonergic) pathways that influence sound processing in the brain and cochlea. Using normal hearing and noise-induced hearing loss models, our
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testing of model-free algorithms for real-time optimization of turbine operating conditions (e.g., yaw set points). Other projects may be assigned by the supervisor depending on skills and technical needs