Design of a Beam Separator for FLASH Electron Therapy Facilities

Design of a Beam Separator for FLASH Electron Therapy Facilities

A promising modality of radiation therapy is FLASH: a technique in which the full radiation dose is delivered in just 1/10th of a second. This modality has been proven successful in destroying cancerous cells while sparing healthy tissues. The aim is to develop an accelerator to treat large-volume a...

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Veröffentlicht in:IEEE transactions on applied superconductivity 2024-08, Vol.34 (5), p.1-5
Hauptverfasser: Korchevnyuk, Vera, Bauche, Jeremie, Karppinen, Mikko, Latina, Andrea, Russenschuck, Stephan, Seidel, Mike, Tommasini, Davide
Format: Artikel
Sprache:eng
Schlagworte:
accelerator magnets
beam dynamics
Dipoles
Electron beams
FLASH
High energy electrons
magnet design
Magnetic domains
Magnetic flux
Magnetic properties
Magnetic separation
Optimization
Particle beams
Particle separators
Quadrupoles
Radiation dosage
Radiation therapy
Solid modeling
spectrometer
Superconducting magnets
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Zusammenfassung:A promising modality of radiation therapy is FLASH: a technique in which the full radiation dose is delivered in just 1/10th of a second. This modality has been proven successful in destroying cancerous cells while sparing healthy tissues. The aim is to develop an accelerator to treat large-volume and deep-seated tumors using high-energy electron beams in the FLASH modality. Specifically, we are designing a steady-state magnet that guides three distinct energy beams into three separate beamlines and ensures dose conformality within FLASH timescales. This paper presents a design method that incorporates beam optics and magnetic parameters into a numerical optimization process. The method is applied to the design of a magnetic spectrometer with a varying pole profile. The magnet performance is compared to pure dipole and combined dipole-quadrupole designs.
ISSN:1051-8223
1558-2515
DOI:10.1109/TASC.2023.3341895