Towards a Timepix3 Radiation Monitor for the Accelerator Mixed Radiation Field: Characterisation with Protons and Alphas from 0.6 MeV to 5.6 MeV

A Timepix3 detector with a 300 μm silicon sensor has been studied as a novel radiation monitor for the mixed radiation field at the Large Hadron Collider at CERN. This work describes a test campaign carried out at Centro Nacional de Aceleradores with quasi-mono energetic protons (alphas) from 0.6 (1...

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Bibliographic Details
Published in:Applied sciences 2024-01, Vol.14 (2), p.624
Main Authors: Prelipcean, Daniel, Lerner, Giuseppe, Slipukhin, Ivan, Lucsanyi, David, Sandberg, Hampus, Storey, James, Martin-Holgado, Pedro, Romero-Maestre, Amor, Morilla García, Yolanda, García Alía, Rubén
Format: Article
Language:English
Subjects:
Calibration
Energy
FLUKA
Measurement
Monte Carlo method
Particle accelerators
Protons
Radiation
radiation monitor
Radiation to Electronics (R2E)
saturation effect
Sensors
silicon pixel detector
Timepix3
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Summary:A Timepix3 detector with a 300 μm silicon sensor has been studied as a novel radiation monitor for the mixed radiation field at the Large Hadron Collider at CERN. This work describes a test campaign carried out at Centro Nacional de Aceleradores with quasi-mono energetic protons (alphas) from 0.6 (1) to 5 (5.6) MeV, where orthogonal irradiations are used to obtain an energy calibration, and a low-energy angular scan to estimate the front dead layer thickness of the sensor. The detector is operated in hole collection mode and at a partial bias of 250 μm at 50 V, which increases the charge sharing among pixels to mitigate the signal saturation at high energy depositions. The data, supported by FLUKA Monte Carlo simulations of energy losses in the sensor, show that the Timepix3 monitor operates in a linear regime up to energy depositions of around 600 keV per pixel and 2 MeV per cluster. As a result, the detector has been found to be suitable for measuring charged particle fluxes in the LHC mixed radiation field within the linear calibration regime, with the partial exception of inelastic nuclear reaction hits (mostly from neutrons).
ISSN:2076-3417
2076-3417
DOI:10.3390/app14020624