Demonstration and characterisation of a novel dual-scattering system for very high energy electrons

This article describes the design and implementation of the first known prototype of a dual-scattering system for the delivery of a uniform VHEE beam with transverse dimensions suitable for pre-clinical and potential future clinical use. The results presented in this article are the first experimental characterisation of beam flattening with dual-scattering foils in the VHEE regime, confirmed with both profile measurements with a YAG screen and radiochromic EBT3 films. Polylactic acid and aluminium dual-scattering systems were designed using TOPAS Monte-Carlo simulations and multi-objective minimisation methods. Studies to test the success of the scattering systems in providing beam magnification and uniformity were carried out at the 200 MeV CERN Linear Electron Accelerator for Research (CLEAR) facility. A generalised super-Gaussian function was used to model the final beam, and comparisons were made with the simulations used for the design. Transverse profiles with uniform components were measured with each of the scattering systems and quantified with super-Gaussian fitting. The uniformity of the in-air profiles suggested that the superficial dose contributions from X-rays were low. This study demonstrated that magnified VHEE beam profiles with uniform components could be generated and measured at CLEAR. The results from this study were used as a basis for the design of future experiments. Similar systems and design methods could be employed by future clinical VHEE facilities to provide conformal treatment.