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Postdoctoral Research Associate - Improving Sea Ice and Coupled Climate Models with Machine Learning
goal is to reduce climate model biases at the air-sea/ice interface by improving subgrid physics in the ocean, sea ice and atmosphere components of existing coarse resolution IPCC-class climate models
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Python programming skills are required, and prior experience with developing open-source software or databases will be considered a plus. Candidates should apply at: https://puwebp.princeton.edu/AcadHire
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technologies, computer vision, and perception Foundational knowledge of machine learning Experience developing custom tools and end effectors for robotic assembly Good knowledge of the CAD software Rhinoceros 3D
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skills, and be prepared to work in a dynamic environment. Candidates should apply online and include a cover letter, CV (including a list of publications), research statement (a short description of past
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the development and testing of new materials. The work will involve reactor design and setup with gas flow capability and process optimization. Qualified candidates should have a Ph.D. in chemistry, physics
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, multiscale modeling, molecular simulation code/software (e.g., LAMMPS, GROMACS), machine learning. Prior experience with applying simulations to biomolecular systems is a plus but not required. Applicants
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defined research and laboratory tests and experiments according to prescribed protocols and assigned schedules and developing/documenting new laboratory protocols. All these activities should be done in
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The Department of Philosophy invites applications for the Louis Skolnick Postdoctoral Research Associate. Successful candidates will pursue research and may teach up to two courses per year, subject
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, multidisciplinary environment, and have access to Princeton's first-class resources. In addition to leading your own research agenda, you will be required to teach or support one of the existing courses in CSML each
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maps of the distributions of small molecules within the cell. Determining the spatial distribution of small molecules within cells is crucial for understanding fundamental biological mechanisms, but it