24 Education Postdoctoral positions at Lawrence Berkeley National Laboratory in United-States
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characterization measurements and non-destructive data acquisition on superconducting cables fabricated at LBNL. Prepare metallographic samples and acquire cross-section images using optical and electron microscopy
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properties of isolated battery and related energy materials with nanometer scale spatial resolution. Support the PI to help develop accurate mathematical models of the thermal properties of the battery systems
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partners to develop and utilize novel characterization and diagnostic methods to identify critical performance and durability barriers and provide and validate strategies to overcome them. In
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. Develop additional data and scenarios for total cost of ownership modeling. Work closely with LBNL researchers, research partners, and industry partners in developing and modeling offsite construction
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initiative, which seeks to 1) create accelerated transition vision for clean power system in China using latest technology cost information for renewable energy and storage; 2) develop the enabling market
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develop ultrafast fiber laser technologies, and advanced digital controls of fiber lasers and their coherent combining. This position will train under the direction and supervision of faculty mentors in
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the Berkeley Accelerator Controls and Instrumentation (BACI) program at the Accelerator Technology & Applied Physics (ATAP) Division to develop adaptive feedback control and instrumentations using
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out statistical analysis and prepare results for publication. Document and communicate research results through publications, such as technical reports and journal manuscripts. Review published
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activity. Apply optimization routines to the search for new catalyst compositions. Run calculations on large supercomputing facilities. Train and deploy machine learning models. Collaborate with experimental
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collaborative environment. You will develop materials and correlative Spectro-microscopic workflows to characterize material and devices. In your work you will use advanced electron and optical methods