Monitoring electron energies during FLASH irradiations

When relativistic electrons are used to irradiate tissues, such as during FLASH pre-clinical irradiations, the electron beam energy is one of the critical parameters that determine the dose distribution. Moreover, during such irradiations, linear accelerators (linacs) usually operate with significan...

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Bibliographic Details
Published in:Physics in medicine & biology Vol. 66; no. 4; pp. 045015 - 45027
Main Authors: Berne, Alexander, Petersson, Kristoffer, Tullis, Iain D C, Newman, Robert G, Vojnovic, Borivoj
Format: Journal Article
Language:English
Published: England IOP Publishing 21.02.2021
Subjects:
Computer Simulation
dosimetry
electron beam energy
Electrons
FLASH
LINAC
Monte Carlo Method
Particle Accelerators - instrumentation
pre-clinical irradiation
pre-clinical radiotherapy
radiobiology
Radiometry
ISSN:1361-6560, 1361-6560
Online Access:Get full text
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Summary:When relativistic electrons are used to irradiate tissues, such as during FLASH pre-clinical irradiations, the electron beam energy is one of the critical parameters that determine the dose distribution. Moreover, during such irradiations, linear accelerators (linacs) usually operate with significant beam loading, where a small change in the accelerator output current can lead to beam energy reduction. Optimisation of the tuning of the accelerator's radio frequency system is often required. We describe here a robust, easy-to-use device for non-interceptive monitoring of potential variations in the electron beam energy during every linac macro-pulse of an irradiation run. Our approach monitors the accelerated electron fringe beam using two unbiased aluminium annular charge collection plates, positioned in the beam path and with apertures (5 cm in diameter) for the central beam. These plates are complemented by two thin annular screening plates to eliminate crosstalk and equalise the capacitances of the charge collection plates. The ratio of the charge picked up on the downstream collection plate to the sum of charges picked up on the both plates is sensitive to the beam energy and to changes in the energy spectrum shape. The energy sensitivity range is optimised to the investigated beam by the choice of thickness of the first plate. We present simulation and measurement data using electrons generated by a nominal 6 MeV energy linac as well as information on the design, the practical implementation and the use of this monitor.
Bibliography:PMB-111202.R1
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ISSN:1361-6560
1361-6560
DOI:10.1088/1361-6560/abd672