Speaker
Description
In the application, transformation, and commercialization of radiation technologies across disciplines such as archaeology, medical physics, environmental science, functional materials, and crystallography, 5 or 6 stage models are commonly employed to ensure both effective and safe utilization. In medical contexts, more extensive 6 to 7 stage models are often employed to facilitate secure implementation through structured, phase-based transitions. These models are not intended for rapid deployment; instead, they require extended timeframes, strong institutional commitment, and strategically directed efforts to achieve successful outcomes.
The broad scope of the unique characteristics of target areas such as Archaeology, Medical Physics, Environmental Science, Functional Materials, and Crystal Growth, has been taken into account and the applicability of transformation and commercialization models tailored to each field has been evaluated.
Additionally, the application of the "seminavette diamond cut," "cushion old diamond cut," and "pendelogue diamond cut" models has been proposed, with the distinctive features of their design being incorporated into the processes of the transformation and commercialization models. This approach leads to an increase in the number of stages within the transformation and commercialization phases, while simultaneously reducing the timeframes required and minimizing directed efforts, resulting in a more refined and unique outcome.
