Spectral and spatial shaping of a laser-produced ion beam for radiation-biology experiments

Spectral and spatial shaping of a laser-produced ion beam for radiation-biology experiments

The study of radiation biology on laser-based accelerators is most interesting due to the unique irradiation conditions they can produce, in terms of peak current and duration of the irradiation. In this paper we present the implementation of a beam transport system to transport and shape the proton...

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Main Authors: L. Pommarel, B. Vauzour, F. Mégnin-Chanet, E. Bayart, O. Delmas, F. Goudjil, C. Nauraye, V. Letellier, F. Pouzoulet, F. Schillaci, F. Romano, V. Scuderi, G. A. P. Cirrone, E. Deutsch, A. Flacco, V. Malka
Format: Article
Language:English
Published: American Physical Society 2017-03-01
Series:Physical Review Accelerators and Beams
Online Access:http://doi.org/10.1103/PhysRevAccelBeams.20.032801
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spelling doaj-e3aeb4b4cd0b473b92cbe4a0641f086f2020-11-24T23:01:13ZengAmerican Physical SocietyPhysical Review Accelerators and Beams2469-98882017-03-0120303280110.1103/PhysRevAccelBeams.20.032801Spectral and spatial shaping of a laser-produced ion beam for radiation-biology experimentsL. PommarelB. VauzourF. Mégnin-ChanetE. BayartO. DelmasF. GoudjilC. NaurayeV. LetellierF. PouzouletF. SchillaciF. RomanoV. ScuderiG. A. P. CirroneE. DeutschA. FlaccoV. MalkaThe study of radiation biology on laser-based accelerators is most interesting due to the unique irradiation conditions they can produce, in terms of peak current and duration of the irradiation. In this paper we present the implementation of a beam transport system to transport and shape the proton beam generated by laser-target interaction for in vitro irradiation of biological samples. A set of four permanent magnet quadrupoles is used to transport and focus the beam, efficiently shaping the spectrum and providing a large and relatively uniform irradiation surface. Real time, absolutely calibrated, dosimetry is installed on the beam line, to enable shot-to-shot control of dose deposition in the irradiated volume. Preliminary results of cell sample irradiation are presented to validate the robustness of the full system.http://doi.org/10.1103/PhysRevAccelBeams.20.032801
collection DOAJ
language English
format Article
sources DOAJ
author L. Pommarel
B. Vauzour
F. Mégnin-Chanet
E. Bayart
O. Delmas
F. Goudjil
C. Nauraye
V. Letellier
F. Pouzoulet
F. Schillaci
F. Romano
V. Scuderi
G. A. P. Cirrone
E. Deutsch
A. Flacco
V. Malka
spellingShingle L. Pommarel
B. Vauzour
F. Mégnin-Chanet
E. Bayart
O. Delmas
F. Goudjil
C. Nauraye
V. Letellier
F. Pouzoulet
F. Schillaci
F. Romano
V. Scuderi
G. A. P. Cirrone
E. Deutsch
A. Flacco
V. Malka
Spectral and spatial shaping of a laser-produced ion beam for radiation-biology experiments
Physical Review Accelerators and Beams
author_facet L. Pommarel
B. Vauzour
F. Mégnin-Chanet
E. Bayart
O. Delmas
F. Goudjil
C. Nauraye
V. Letellier
F. Pouzoulet
F. Schillaci
F. Romano
V. Scuderi
G. A. P. Cirrone
E. Deutsch
A. Flacco
V. Malka
author_sort L. Pommarel
title Spectral and spatial shaping of a laser-produced ion beam for radiation-biology experiments
title_short Spectral and spatial shaping of a laser-produced ion beam for radiation-biology experiments
title_full Spectral and spatial shaping of a laser-produced ion beam for radiation-biology experiments
title_fullStr Spectral and spatial shaping of a laser-produced ion beam for radiation-biology experiments
title_full_unstemmed Spectral and spatial shaping of a laser-produced ion beam for radiation-biology experiments
title_sort spectral and spatial shaping of a laser-produced ion beam for radiation-biology experiments
publisher American Physical Society
series Physical Review Accelerators and Beams
issn 2469-9888
publishDate 2017-03-01
description The study of radiation biology on laser-based accelerators is most interesting due to the unique irradiation conditions they can produce, in terms of peak current and duration of the irradiation. In this paper we present the implementation of a beam transport system to transport and shape the proton beam generated by laser-target interaction for in vitro irradiation of biological samples. A set of four permanent magnet quadrupoles is used to transport and focus the beam, efficiently shaping the spectrum and providing a large and relatively uniform irradiation surface. Real time, absolutely calibrated, dosimetry is installed on the beam line, to enable shot-to-shot control of dose deposition in the irradiated volume. Preliminary results of cell sample irradiation are presented to validate the robustness of the full system.
url http://doi.org/10.1103/PhysRevAccelBeams.20.032801
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