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system model simulations (e.g., isotope-enabled CESM1.2 and MPI-ESM1.2) and run new simulations, including tagged-water experiments to track changes in moisture sourcing under different climate conditions
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system model simulations (e.g., isotope-enabled CESM1.2 and MPI-ESM1.2) and run new simulations, including tagged-water experiments to track changes in moisture sourcing under different climate conditions
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computer simulations, as well as prior work with food and other biomaterials. The application deadline is December 15, 2025. Interested applicants are encouraged to contact Juming Tang (jutang88@uw.edu
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. The successful candidate will be a member of a highly interdisciplinary team including oncologists, biologists, engineers, and imaging scientists. The candidate will develop computational models of human disease
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the active target and the calorimeter, employing cutting edge detector technologies (LGADs & LYSO) and fast electronics. Our team also carries a host of simulations to prototype the experiment and develop
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: Using biogeochemical evolutionary models to simulate lifeless and inhabited worlds, and Developing disequilibrium-, redox-, and information-based metrics to understand and quantify the influence of life
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, innovative, and collaborative individual to join our interdisciplinary research group. The successful candidate will conduct original research in biophysical modeling and live-cell fluorescence microscopy
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, transportation equity and sustainability, traffic simulation, multimodal transportation systems, network modeling, etc. Duties will include conducting original research, disseminating research findings