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by Dr. Tim Pleskac (cognitive and decision modeling) and Dr. David Crandall (computer vision and AI). The postdoc will lead the development, integration, and testing of computational models of decision
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related dementias. Project Overview Leveraging newly developed brain organoid models, this project will: Utilize human iPSC lines from AD patients to develop multiple tiered brain organoid models
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focus on quantum impurity models (particularly Kondo model). • Strong computational skills (with Python or Julia or C++ or Matlab or equivalent) and using numerical techniques such as exact
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to contribute to cutting-edge research investigating the physiological and psychological impacts of spaceflight. Our program focuses on human analog studies to simulate microgravity and explore
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by Dr. Tim Pleskac (cognitive and decision modeling) and Dr. David Crandall (computer vision and AI). The postdoc will lead the development, integration, and testing of computational models of decision
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. Additional Qualifications: • Theory: Expertise in quantum optics, quantum information science, or quantum field theory. • Simulation: Proficiency in MATLAB or Python for simulation/modeling and data analysis
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for data-intensive research and statistical modeling. IU Astronomy has guaranteed access to NEID, the high-precision radial-velocity spectrograph on the 3.5-m WIYN telescope, enabling powerful synergies with
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, and litigation strategies to address those impacts. Now, we’re looking for a postdoctoral scholar to expand our research program and do high-impact work at the intersection of climate change and human
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with cancer immunology, we design nano-enabled therapeutics that modulate immune signaling and enhance crosstalk between myeloid and lymphoid cells. Our interdisciplinary research program spans