Sensor performance evaluation for candidate photon readout systems in the RIPTIDE detector

This paper describes a comparative study of three optical readout systems for the RIPTIDE detector, focusing on their performance under extreme low luminosity conditions. The systems analysed include the ASI533MM-PRO from ZWO, the ORCA-Quest2 from Hamamatsu, and an MCP-based setup built specifically...

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Published inApplied radiation and isotopes Vol. 225; p. 112077
Main Authors Pisanti, Claudia, Cecchini, Stefano, Console Camprini, Patrizio, Giacomini, Francesco, Lanzi, Samuele, Massimi, Cristian, Mengarelli, Alberto, Minniti, Triestino, Musumarra, Agatino, Pellegriti, Maria Grazia, Piccioni, Alberto, Ridolfi, Riccardo, Spighi, Roberto, Terranova, Nicolas, Villa, Mauro
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.11.2025
Subjects
Calibration
Detector
Imaging
Neutron
Optical
Photons
RPTI
Scintillation
Sensor
Detector
RPTI
Optical
Imaging
Photons
Scintillation
Calibration
Neutron
Sensor
Online AccessGet full text
ISSN0969-8043
1872-9800
1872-9800
DOI10.1016/j.apradiso.2025.112077

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Abstract This paper describes a comparative study of three optical readout systems for the RIPTIDE detector, focusing on their performance under extreme low luminosity conditions. The systems analysed include the ASI533MM-PRO from ZWO, the ORCA-Quest2 from Hamamatsu, and an MCP-based setup built specifically. A key aspect of this analysis is the method to measure the intensity distribution of the diffraction peaks, produced by a coherent light passing through a single slit to study the photon sensitivity and the noise characteristics of the detectors. A photodiode detector for laser power measurement was used to quantify the total light intensity, which was then correlated with the grey level output recorded by each system. As expected, the results show that the ASI533MM-PRO exhibited lower photon sensitivity and higher background noise than the ORCA-Quest2, which demonstrated the capability of detecting single photons. The MCP setup, despite its higher background noise, benefited from light amplification, enabling detection of lower photon densities. This method of comparison provides a robust framework for evaluating the photon’s detection sensitivity of optical readout systems for high-precision, low-luminosity applications like the RIPTIDE detector. •Different optical detection methods are compared in low-light condition.•A diffraction slit setup was used to evaluate sensitivity and noise performances.•Photon multiplication is necessary for RIPTIDE track imaging applications.
AbstractList This paper describes a comparative study of three optical readout systems for the RIPTIDE detector, focusing on their performance under extreme low luminosity conditions. The systems analysed include the ASI533MM-PRO from ZWO, the ORCA-Quest2 from Hamamatsu, and an MCP-based setup built specifically. A key aspect of this analysis is the method to measure the intensity distribution of the diffraction peaks, produced by a coherent light passing through a single slit to study the photon sensitivity and the noise characteristics of the detectors. A photodiode detector for laser power measurement was used to quantify the total light intensity, which was then correlated with the grey level output recorded by each system. As expected, the results show that the ASI533MM-PRO exhibited lower photon sensitivity and higher background noise than the ORCA-Quest2, which demonstrated the capability of detecting single photons. The MCP setup, despite its higher background noise, benefited from light amplification, enabling detection of lower photon densities. This method of comparison provides a robust framework for evaluating the photon's detection sensitivity of optical readout systems for high-precision, low-luminosity applications like the RIPTIDE detector.
This paper describes a comparative study of three optical readout systems for the RIPTIDE detector, focusing on their performance under extreme low luminosity conditions. The systems analysed include the ASI533MM-PRO from ZWO, the ORCA-Quest2 from Hamamatsu, and an MCP-based setup built specifically. A key aspect of this analysis is the method to measure the intensity distribution of the diffraction peaks, produced by a coherent light passing through a single slit to study the photon sensitivity and the noise characteristics of the detectors. A photodiode detector for laser power measurement was used to quantify the total light intensity, which was then correlated with the grey level output recorded by each system. As expected, the results show that the ASI533MM-PRO exhibited lower photon sensitivity and higher background noise than the ORCA-Quest2, which demonstrated the capability of detecting single photons. The MCP setup, despite its higher background noise, benefited from light amplification, enabling detection of lower photon densities. This method of comparison provides a robust framework for evaluating the photon’s detection sensitivity of optical readout systems for high-precision, low-luminosity applications like the RIPTIDE detector. •Different optical detection methods are compared in low-light condition.•A diffraction slit setup was used to evaluate sensitivity and noise performances.•Photon multiplication is necessary for RIPTIDE track imaging applications.
This paper describes a comparative study of three optical readout systems for the RIPTIDE detector, focusing on their performance under extreme low luminosity conditions. The systems analysed include the ASI533MM-PRO from ZWO, the ORCA-Quest2 from Hamamatsu, and an MCP-based setup built specifically. A key aspect of this analysis is the method to measure the intensity distribution of the diffraction peaks, produced by a coherent light passing through a single slit to study the photon sensitivity and the noise characteristics of the detectors. A photodiode detector for laser power measurement was used to quantify the total light intensity, which was then correlated with the grey level output recorded by each system. As expected, the results show that the ASI533MM-PRO exhibited lower photon sensitivity and higher background noise than the ORCA-Quest2, which demonstrated the capability of detecting single photons. The MCP setup, despite its higher background noise, benefited from light amplification, enabling detection of lower photon densities. This method of comparison provides a robust framework for evaluating the photon's detection sensitivity of optical readout systems for high-precision, low-luminosity applications like the RIPTIDE detector.This paper describes a comparative study of three optical readout systems for the RIPTIDE detector, focusing on their performance under extreme low luminosity conditions. The systems analysed include the ASI533MM-PRO from ZWO, the ORCA-Quest2 from Hamamatsu, and an MCP-based setup built specifically. A key aspect of this analysis is the method to measure the intensity distribution of the diffraction peaks, produced by a coherent light passing through a single slit to study the photon sensitivity and the noise characteristics of the detectors. A photodiode detector for laser power measurement was used to quantify the total light intensity, which was then correlated with the grey level output recorded by each system. As expected, the results show that the ASI533MM-PRO exhibited lower photon sensitivity and higher background noise than the ORCA-Quest2, which demonstrated the capability of detecting single photons. The MCP setup, despite its higher background noise, benefited from light amplification, enabling detection of lower photon densities. This method of comparison provides a robust framework for evaluating the photon's detection sensitivity of optical readout systems for high-precision, low-luminosity applications like the RIPTIDE detector.
ArticleNumber 112077
Author Musumarra, Agatino
Villa, Mauro
Minniti, Triestino
Spighi, Roberto
Terranova, Nicolas
Pellegriti, Maria Grazia
Ridolfi, Riccardo
Cecchini, Stefano
Lanzi, Samuele
Massimi, Cristian
Giacomini, Francesco
Mengarelli, Alberto
Pisanti, Claudia
Console Camprini, Patrizio
Piccioni, Alberto
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Keywords Detector
RPTI
Optical
Imaging
Photons
Scintillation
Calibration
Neutron
Sensor
Language English
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  issue: 2/3
  year: 1960
  ident: 10.1016/j.apradiso.2025.112077_b13
  article-title: Image intensifiers for nuclear track imaging
  publication-title: IRE Trans. Nucl. Sci.
  doi: 10.1109/TNS2.1960.4315752
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Snippet This paper describes a comparative study of three optical readout systems for the RIPTIDE detector, focusing on their performance under extreme low luminosity...
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StartPage 112077
SubjectTerms Calibration
Detector
Imaging
Neutron
Optical
Photons
RPTI
Scintillation
Sensor
Title Sensor performance evaluation for candidate photon readout systems in the RIPTIDE detector
URI https://dx.doi.org/10.1016/j.apradiso.2025.112077
https://www.ncbi.nlm.nih.gov/pubmed/40818304
https://www.proquest.com/docview/3240293025
Volume 225
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