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-generation computing, including quantum emitters and neuromorphic transistors. The ideal candidate should have a strong background in solid-state physics, electronic materials, or device fabrication and
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on semiconductor devices for next-generation computing, including quantum emitters and neuromorphic transistors. The ideal candidate should have a strong background in solid-state physics, electronic materials
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capable of research combining experimental characterization with computational modeling of process--structure--property of structural alloys (aluminum, steels, superalloys). Desired qualifications include
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independent research on the design and fabrication of neuromodulation devices and the characterization of these devices. Collaborate with lab members to test devices in cell culture and animal model studies
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. Develop, design, and conduct complex research projects. Perform scientific data collections, reductions, and analyses involving routine procedures characterized by use of independent judgment. Foster
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machine learning to solve complex aerospace engineering challenges. Developed and implemented AI-driven solutions for autonomous lunar and asteroid landings, as well as cislunar operations. Designed and
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. Designed and executed multi-target space trajectory plans for missions involving active debris removal, on-orbit servicing, and multiple gravity-assist (MGA) tours. Experience in teaching and mentoring