20 Computer Science Postdoctoral research jobs at Lawrence Berkeley National Laboratory in united-States
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Science Acceleration Program (NESAP). NESAP postdocs collaborate with scientific teams to enable the solution of deep, meaningful problems across all program areas funded by the Department of Energy Office
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The National Energy Research Scientific Computing Center (NERSC) at Berkeley Lab seeks a highly motivated postdoctoral fellow to join the Data Science Engagement team as part of NERSC’s Exascale
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of scientists and engineers making significant impacts in stride in the fields of materials science and energy. Join our dynamic team at the The Materials Sciences Division , where we are pioneering the future
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Exascale Science Acceleration Program (NESAP). NESAP postdocs collaborate with scientific teams to enable the solution of deep, meaningful problems across all program areas funded by the Department of Energy
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for earth system and climate science. What You Will Do: Develop and apply reactive transport models to quantify weathering rates of silicate amendments at field scale. Integrate diverse data
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for helping the development and growing of an impactful research program in understanding and improving the thermal management and characterization of electrochemical batteries under different and extreme
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Lawrence Berkeley National Lab’s (LBNL ) Accelerator Technology and Applied Physics Division has an opening for a Postdoctoral Scholar to join the team. In this role, you will work at the
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Lawrence Berkeley National Lab’s (LBNL ) Energy Storage & Distributed Resources Division has an opening for a Electrochemical Engineering Postdoctoral Fellow to join the team. In this exciting role
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The Materials Science Divisions at Lawrence Berkeley National Lab (LBNL ) seek highly motivated Postdoctoral Fellow to join the Minerals for Energy Storage Synthesis (MINES) program of the Lithium
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networking experiments between Lawrence Berkeley National Lab and University of California, Berkeley. This effort will require incorporating high-finesse optical-cavity systems into a novel trap technology to