Establishmet of Reproducible Ultra-High-Dose Rate Proton Beams Based on a Clinical Cyclotron System
- Authors
- Kim Chae-Eon; Park, Sang-il; Jeong, Seonghoon; An, Seohyeon; Kim, Chankyu; Jeong, Jong Hwi; Kim, Haksoo; Lim, Young Kyung; Shin, Dongho; Chung, Yoonsun; Lee, Se Byeong
- Issue Date
- Jun-2026
- Publisher
- 한국의학물리학회
- Keywords
- Ultra-high dose rates; FLASH proton therapy; Cyclotron-based proton therapy system
- Citation
- 의학물리, v.37, no.2, pp 54 - 64
- Pages
- 11
- Indexed
- KCI
- Journal Title
- 의학물리
- Volume
- 37
- Number
- 2
- Start Page
- 54
- End Page
- 64
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/218163
- DOI
- 10.14316/pmp.2026.37.2.54
- ISSN
- 2508-4445
2508-4453
- Abstract
- Purpose: Stable delivery of ultra-high-dose rates (UHDRs) proton beams for FLASH research remains technically challenging. This study aimed to develop a UHDR proton beam on a clinical cyclotron with minimal beamline modifications and a time-gated control approach for experimental and preclinical FLASH research.
Methods: UHDR proton beams were generated using a cyclotron-driven passive-scattering system without the range modulator and scatterer. Field broadening was achieved with thin lead foil, while a Raspberry Pi-based time-gated system was implemented to control beam-on duration independent of the monitor chamber. Beam profiles were evaluated using EBT-XD films.
Results: Millisecond-scale beam delivery with high temporal reproducibility was attained for beam-on durations. A stable reference UHDR beam was established at 228 MeV and 200 nA, producing a Gaussian-like lateral profile with a 28.8 mm full width at half maximum at 2 g/cm2. Film dosimetry confirmed a central-axis dosage rate of approximately 70 Gy/s.
Conclusions: This study demonstrates that clinically available clinical cyclotron systems can be adapted to generate UHDR proton beams suitable for FLASH research through time-gated control and minimal beamline modifications. The established reference beam configuration has potential for experimental and preclinical FLASH proton studies.
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