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of Science or Engineering degree in Health Physics, engineering, or related technical field A minimum of five to seven years of relevant experience. Working knowledge of radiation detection instrumentation
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, and accessibility by fostering a respectful workplace –how we treat one another, work together, and measure success. Basic Qualifications: Bachelor of Science or Engineering degree in Health Physics
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the expansion of R&D in additive manufacturing Design new robotic systems for AM Integration of sensors and components Testing and verification of new systems Support efforts to improve the AM process
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with physical security and material protection practices. Maintain calibration of relevant equipment. Perform NMC&A surveillances, assessments, and audits. Lead and perform engineering calculations
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) are integrated into the WPPC MS process Regularly review critiques against WPPC MS requirements and ISM Core Functions Implement requirements and provide guidance for work control including evaluation and
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-ionized water and ultra –pure water systems, laboratory exhaust systems, building HVAC systems, heating water, process water, equipment cooling water, sensible cooling water, and vacuum systems. Leads
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with physical security and material protection practices. Maintain calibration of relevant equipment. Perform NMC&A surveillances, assessments, and audits. Deliver ORNL’s mission by aligning behaviors
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physics modeling and simulation through novel methods and algorithm design for CPU and GPU architectures Interact effectively across organization structures with staff scientists and engineers and be
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physics, radiation transport, nuclear data, nuclear system safety, spent fuel storage, transportation and disposal, radiation detector modeling and simulation, nuclear security modeling, and nuclear
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. Mentorship will be a key aspect, guiding and inspiring graduate and undergraduate students. As a valued, emerging researcher in the ORNL Physical Sciences Directorate and the UT-OR Innovation Institute, you'll