Characterisation of the HollandPTC R&D proton beamline for physics and radiobiology studies

TL;DR

This paper details the comprehensive characterization of HollandPTC's R&D proton beamline, including its energy range, beam shape, and a novel dual ring scattering system for diverse research applications.

Contribution

It introduces a versatile, well-characterized proton beamline with a dual ring scattering system supporting various research needs at HollandPTC.

Findings

Beam energy range from 70 to 240 MeV characterized.

Dual ring system achieves uniform fields up to 20x20 cm².

System allows quick switching between beam modes.

Abstract

HollandPTC is an independent outpatient center for proton therapy, scientific research, and education. Patients with different types of cancer are treated with Intensity Modulated Proton Therapy (IMPT). In addition, the HollandPTC R&D consortium conducts scientific research into the added value and improvements of proton therapy. To this end, HollandPTC created clinical and pre-clinical research facilities including a versatile R&D proton beamline for various types of biologically and technologically oriented research. In this work, we present the characterization of the R&D proton beam line of HollandPTC. Its pencil beam mimics the one used for clinical IMPT, with energy ranging from 70 up to 240 MeV, which has been characterized in terms of shape, size, and intensity. For experiments that need a uniform field in depth and lateral directions, a dual ring passive scattering system has been designed, built, and characterized. With this system, field sizes between 2x2 cm2 and 20x20 cm2 with 98% uniformity are produced with dose rates ranging from 0.5 Gy/min up to 9 Gy/min. The unique and customized support of the dual ring system allows switching between a pencil beam and a large field in a very simple and fast way, making the HollandPTC R&D proton beam able to support a wide range of different applications.