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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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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
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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
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refereed journals. What is Required: PhD in Physics or Engineering, in the field of lasers, optics, or electrical engineering. Experimental experience with ultrafast fiber laser systems, or digital control
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on physical phenomena and isotopic shifts. Design optical systems and diagnostics. Characterize the morphology of laser ablation craters and correlate with emission signals. Work with chemometrics and
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laboratories. What You Will Do: Develop and apply modern advanced optical and x-ray spectroscopy and microscopy techniques for the characterization, modification and control of model lithium metal, silicon and