Sort by
Refine Your Search
-
Laboratory and the Dept. of Materials Science and Engineering at the University of Arizona has an opening for a Postdoctoral Research Associate I in the field of thermodynamic modeling of planetary materials
-
, and neural circuit models for understanding local-field and neural ensemble data collected from rodent models of healthy aging and age-associated disorders. These analyses and models will contribute
-
of Arizona's Department of Psychology invites you to apply to the role of Postdoctoral Research Associate I. This position will develop and refine computational approaches, analyses, and neural circuit models
-
will be compared to natural prototypes (e.g. in Asia or western North America) and analog models, with emphasis on the implications for structural models needed for energy geoscience. Key skills include
-
diffusion models for synthesis of 5G/6G coverage maps, channel characterization, medical imaging, and RF signal synthesis. Study new reinforcement learning and DQN designs for beam tracking and management in
-
packages (e.g., Seurat, Bioconductor). Background in animal handling and in vivo models of infection is highly desirable. Experience in scientific manuscript and grant writing. Strong organizational
-
programming and familiarity with relevant bioinformatics packages (e.g., Seurat, Bioconductor). Background in animal handling and in vivo models of infection is highly desirable. Experience in scientific
-
models. Analyze large proteomic datasets. Contribute to manuscript preparation and publication. Present research findings at lab meetings, departmental seminars, and conferences. Minimum Qualifications
-
independently, while maintaining excellent communication with the Principal Investigator (PI) to ensure projects are completed as directed. Willingness to work with animal models and human islets is required
-
cellular proteins in cardiac, immune and cancer metabolism, 2) role of mRNAbinding proteins in cell regeneration, and 3) characterization of cellular and mitochondrial iron homeostasis. Using mouse models