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flying on top of thunderclouds in the Gulf of Mexico and is currently scheduled for summer 2028. Through this project, our group is building an innovative airborne gamma-ray imager, capable of localizing
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flying Uncrewed Aerial Systems (UAS) for research. Demonstrated expertise in deploying novel communications systems. Demonstrated scientific writing skills supported by peer-reviewed publications
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skills needed to pursue a career path of his or her choosing. Responsibilities: Function 1 1. Aerial Robot Autonomy Single- and multi-robot decision-making and planning, including: Low-altitude flight
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/synchronization, data acquisition, and execution of light detection and ranging protocols. Applicants preferably should be familiar with single-photon detection concepts and time-of-flight or equivalent timing
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propulsion system performance, including hybrid-electric configurations, and associated flight envelope limits. Gaining experience in the evaluation of aircraft mission performance using modeling and
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robotics and AI groups with key partners from industry and the public sector to study how intelligence emerges from the interaction between body, computation, and environment, across flying, ground, and
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profiling by time-of-flight mass spectrometry (ToF-SIMS and MALDI-ToF), the project will generate integrated molecular signatures that can be translated into robust monitoring assays of cancer cell
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industry and the public sector to study how intelligence emerges from the interaction between body, computation, and environment, across flying, ground, and aquatic robot configurations. Our mission is to
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. These measurements have applications to nuclear astrophysics, nuclear structure, and fundamental symmetries and include time-of-flight mass measurements with the S800 spectrometer, and Penning trap