Job Description The Applied Radiation Technology Group (ART) develops fusion technologies and underpinning R&D programmes by leading the application and development of nuclear modelling codes, tools, and analysis of nuclear data. The group performs highly detailed, accurate and reliable time-dependent simulations and modelling in neutronics, waste management, and magnet safety to support concept development and detailed design, safety case, and operations. As a year in industry student, you will work alongside experts to directly support the delivery of a key R&D project led by the ART group to model and measure nuclear environments, and conduct experiments for validation and verification to drive the design, commissioning, operation, maintenance and decommissioning of fusion machines and experiments and support the realisation of fusion power plants. Your responsibilities will include: Perform data and nuclear analysis tasks that support the development, validation, and verification of novel experimental techniques, including the adaptation or creation of new methods to enable the realisation of fusion power plants. Work alongside experienced staff to gain familiarity with the people, methods, practices, and programmes within the Group and wider Division, including the design, operation, maintenance, and demonstration of nuclear instrumentation where appropriate. Develop scientific coding skills to contribute to nuclear analysis methods and tools that enhance the capability and efficiency of the ART group. Build knowledge and understanding of fusion-relevant topics and apply this learning to assigned projects. Identify opportunities to improve experimental apparatus, process plant systems, and operational practices and methodologies. Liaise with other teams and groups to build effective working relationships and support collaborative delivery. Ensure that safety, health, and environmental culture and working practices align with UKAEA requirements. Promote and support the wider Fusion Technology Division to enable successful project delivery.