Absolute calibration up to 20 MeV of an online readout CMOS system suitable to detect high-power lasers accelerated protons

K. Burdonov; R. Lelièvre; P. Forestier-Colleoni; T. Ceccotti; M. Cuciuc; L. Lancia; W. Yao; J. Fuchs

doi:10.1063/5.0150373

Absolute calibration up to 20 MeV of an online readout CMOS system suitable to detect high-power lasers accelerated protons

K. Burdonov
, R. Lelièvre
, P. Forestier-Colleoni
, T. Ceccotti
, M. Cuciuc
, L. Lancia
, W. Yao
, J. Fuchs

Sorbonne Université
Institute of Applied Physics of the Russian Academy of Sciences
Joint Institute for High Temperatures of the Russian Academy of Sciences
Université Paris-Saclay
Horia Hulubei National Institute of Physics and Nuclear Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

We present the design and absolute calibration of a charged particle online readout CMOS system tailored for high-power laser experiments. This system equips a Thomson parabola spectrometer, which is used at the Apollon petawatt scale laser facility to measure the spectra of protons produced by high-intensity laser-target interactions. The RadEye1 CMOS matrices array detectors are paired with a custom triggering system for image grabbing. This allows us to register the proton and ion signals remotely. The repetition rate is presently 1 shot/min, but the frame grabbing enables the system to be compatible with modern high-power lasers running, e.g., at 1 Hz. We detail here the implementation, in the harsh electromagnetic environment of such interactions, of the system, and its absolute calibration, which was performed for proton energies from 4 to 20 MeV.

Original language	English
Article number	083303
Journal	Review of Scientific Instruments
Volume	94
Issue number	8
DOIs	https://doi.org/10.1063/5.0150373
Publication status	Published - 1 Aug 2023

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title = "Absolute calibration up to 20 MeV of an online readout CMOS system suitable to detect high-power lasers accelerated protons",

abstract = "We present the design and absolute calibration of a charged particle online readout CMOS system tailored for high-power laser experiments. This system equips a Thomson parabola spectrometer, which is used at the Apollon petawatt scale laser facility to measure the spectra of protons produced by high-intensity laser-target interactions. The RadEye1 CMOS matrices array detectors are paired with a custom triggering system for image grabbing. This allows us to register the proton and ion signals remotely. The repetition rate is presently 1 shot/min, but the frame grabbing enables the system to be compatible with modern high-power lasers running, e.g., at 1 Hz. We detail here the implementation, in the harsh electromagnetic environment of such interactions, of the system, and its absolute calibration, which was performed for proton energies from 4 to 20 MeV.",

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AU - Burdonov, K.

AU - Lelièvre, R.

AU - Forestier-Colleoni, P.

AU - Ceccotti, T.

AU - Cuciuc, M.

AU - Lancia, L.

AU - Yao, W.

AU - Fuchs, J.

PY - 2023/8/1

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AB - We present the design and absolute calibration of a charged particle online readout CMOS system tailored for high-power laser experiments. This system equips a Thomson parabola spectrometer, which is used at the Apollon petawatt scale laser facility to measure the spectra of protons produced by high-intensity laser-target interactions. The RadEye1 CMOS matrices array detectors are paired with a custom triggering system for image grabbing. This allows us to register the proton and ion signals remotely. The repetition rate is presently 1 shot/min, but the frame grabbing enables the system to be compatible with modern high-power lasers running, e.g., at 1 Hz. We detail here the implementation, in the harsh electromagnetic environment of such interactions, of the system, and its absolute calibration, which was performed for proton energies from 4 to 20 MeV.

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JO - Review of Scientific Instruments

JF - Review of Scientific Instruments

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Absolute calibration up to 20 MeV of an online readout CMOS system suitable to detect high-power lasers accelerated protons

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