Abstract
The purpose of this work was to provide a flexible platform for FLASH research with protons by adapting a former clinical pencil beam scanning gantry to irradiations with ultra-high dose rates. PSI Gantry 1 treated patients until December 2018. We optimized the beamline parameters to transport the 250MeV beam extracted from the PSI COMET accelerator to the treatment room, maximizing the transmission of beam intensity to the sample. We characterized a dose monitor on the gantry to ensure good control of the dose, delivered in spot-scanning mode. We characterized the beam for different dose rates and field sizes for transmission irradiations. We explored scanning possibilities in order to enable conformal irradiations or transmission irradiations of large targets (with transverse scanning). We achieved a transmission of 86% from the cyclotron to the treatment room. We reached a peak dose rate of 9000Gy/s at 3mm water equivalent depth, along the central axis of a single pencil beam. Field sizes of up to 5×5mm2 were achieved for single-spot FLASH irradiations. Fast transverse scanning allowed to cover a field of 16×1.2cm2 . With the use of a nozzle-mounted range shifter, we are able to span depths in water ranging from 19.6 to 37.9cm. Various dose levels were delivered with precision within less than 1%. We have realized a proton FLASH irradiation setup able to investigate continuously a wide dose rate spectrum, from 1 to 9000Gy/s in single-spot irradiation as well as in the pencil beam scanning mode. As such, we have developed a versatile test bench for FLASH research.
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