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NSLS-II's strategic objectives, the Optics Group plays an important role in advancing high-spatial-resolution imaging and high-coherent-flux scattering by employing cutting-edge optical design and
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, safeguards, and healthcare. The Group is heavily involved in engineering design, modeling, testing, and field deployment of radiation detection systems to support sponsors in their operation and research. In
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. Appointment level will be commensurate with experience and qualifications. Essential Duties and Responsibilities: Design, build, test and operate quantum optics experiments and devices oriented toward long
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kinetics and mechanisms Experience problem solving to design or improve scientific experimental equipment Experience in (or familiarity with) radiation chemistry Experience in pulse radiolysis or laser flash
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scientific facilities: The CFN conducts research on nanomaterial synthesis by assembly designing precise architectures with targeted functionality by organizing nanoscale components. The CFN researches and
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responsibilities: • Perform experimental design, data collection and analysis from in situ liquid surface X-ray scattering experiments at NSLS-II. • Collaborate to develop and commission novel tender X-ray liquid
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environment and the resources necessary for you to succeed. Essential Duties and Responsibilities: Conduct comprehensive search and analysis of literature relevant to the project. Plan and carry out experiments
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scientific facilities: The CFN conducts research on nanomaterial synthesis by assembly designing precise architectures with targeted functionality by organizing nanoscale components. The CFN researches and
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utilizes high intensity proton beams up to 200 MeV. Essential Duties and Responsibilities: Develop and test methods for the separation and purification of radionuclides of interest Design characterization
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scientific facilities: The CFN conducts research on nanomaterial synthesis by assembly designing precise architectures with targeted functionality by organizing nanoscale components. The CFN researches and