Hasselt University - Belgium
AUTHOR PROFILE
EARLY ACADEMIC PURSUITS
Mattias Simons began his academic journey at Hasselt University, where he pursued a Bachelor of Science in Engineering, specializing in Nuclear Technology, from 2016 to 2019. His early academic pursuits laid the groundwork for his future endeavors in nuclear technology and radiation detection.
PROFESSIONAL ENDEAVORS
As a dedicated Ph.D. researcher at the Research Foundation Flanders – Hasselt University since 2020, Mattias Simons has been actively involved in advancing nuclear decomissioning processes. His work involves developing innovative measurement setups using various detectors, such as Lidar and Compton camera technology, to enhance the visualization and localization of hotspots within decommissioning environments.
CONTRIBUTIONS AND RESEARCH FOCUS
Mattias Simons' research primarily focuses on nuclear decomissioning, with a specialization in radiation detection and measurement automation. His contributions include the development of novel measurement setups and the analysis of complex datasets to improve efficiency and safety in nuclear facility dismantlement.
IMPACT AND INFLUENCE
Through his research efforts, Mattias Simons has made a significant impact on the field of nuclear decomissioning. His work has the potential to revolutionize current practices by introducing advanced measurement techniques and automation technologies, thereby enhancing the overall safety and effectiveness of decommissioning processes.
ACADEMIC CITES
Mattias Simons' research findings have been widely cited in academic literature, underscoring the relevance and significance of his contributions to the field of nuclear technology and radiation detection. His work serves as a valuable resource for researchers, practitioners, and policymakers involved in nuclear decomissioning efforts.
LEGACY AND FUTURE CONTRIBUTIONS
As Mattias Simons continues his research endeavors, his legacy in the field of nuclear decomissioning is characterized by his dedication to innovation and excellence. His future contributions hold promise for further advancements in measurement automation, radiation detection, and safety protocols, shaping the future of nuclear decomissioning practices.
NOTABLE PUBLICATION
Towards a Semi-Autonomous Robot Platform for the Characterisation of Radiological Environments 2022 (2)