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candidate will be part of a diverse team of experimentalists, theoreticians and biostatisticians that studies thalamocortical interactions in different brain models (tree shrew, macaque, human neurotypical
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the social sciences, statistics, computer science, or related fields, and their interests must fall at the technical forefront of quantitative social science. Candidates should offer state-of-the-art
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*Soft and Living Materials *Natural and Engineered Materials for Energy, Environment and Sustainability *Optical Materials and Light Matter Interactions *Quantum Materials Science The term of appointment
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the impact of inorganic aerosols on sunlight scattering and droplet/ice crystal nucleation. The researcher will interact with graduate students and postdoctoral researchers in the research group and in
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involves close interactions with experimental collaborators. Many of the problems are constrained by inherently low-quality or noisy data, and the successful candidate will be enthusiastic about contributing
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collaborations and interactions. This position is in-person at CITP on the Princeton University campus. *All appointments are subject to the University background check policy. *Ph.D. or doctorate degree is
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course enrollment and the approval of the Dean of the Faculty. Postdoctoral track requirements: *Both CITP and Princeton University place high value on in-person collaborations and interactions
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thalamocortical interactions in different brain models (tree shrew, macaque, human neurotypical, schizophrenia patients) and levels of analyses (local- and large-scale circuits). This is a unique opportunity to
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), this multi-scale modeling framework will be used to analyze the interacting drivers for energy decisions across local (e.g. local opposition to energy infrastructure), national (e.g., domestic energy
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superconductors. The successful candidate must have substantial experience in state-of-the-art ARPES and/or low temperature STM/STS techniques. Some experience with first-principle methods (FP/DFT) and/or other