Abstract
BACKGROUND: The backscatter contribution from the beam stopper to the exit-side skin dose on the Halcyon and Ethos radiotherapy systems has not been studied, and this contribution cannot be separated by experimental methods. PURPOSE: This study aimed to assess how the beam backscatter from the beam stopper contributes to the exit-side skin dose. METHODS: The beam stopper and a simplified model of the bore and MV imager were implemented in a validated Monte Carlo model of Halcyon and Ethos radiotherapy systems. To analyze the worst-case scenarios of the backscatter, the largest field size was used, and the dose deposition in a water phantom was calculated with four different phantom setups, varying the distance from the bore and the beam stopper. The backscatter contribution to the dose was isolated, and the spectral properties of the backscattered photons were analyzed for one phantom setup. RESULTS: The depth dose curves and the separated backscatter contribution were presented, with a maximum backscatter contribution of 2% of the local dose at the exit-side skin dose observed when the phantom was closest to the bore and the beam stopper. CONCLUSIONS: The backscatter contribution to the skin dose was found to be minimal, even with the largest field size and the phantom positioned extremely close to the bore.