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The following article is OPEN ACCESS

ANTS — a simulation package for secondary scintillation Anger-camera type detector in thermal neutron imaging

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Published 13 August 2012 , ,

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Author e-mails

andrei@coimbra.lip.pt

Author affiliations

a LIP-Coimbra and Departamento de Física, Universidade de Coimbra, Rua Larga, Coimbra, Portugal

b Forschungs-Neutronenquelle Heinz Maier-Leibnitz (FRM II), TUM, Lichtenbergstr.1, Garching, Germany

c Zentralinstitut für Elektronik, Forschungszentrum Jülich GmbH, Wilhelm-Johnen-Straße, Jülich, Germany

d Institut Laue Langevin, 6 Rue Jules Horowitz, Grenoble, France

e Istituto Nazionale per la Fisica della Materia, Unità di Perugia, Via A. Pascoli, Perugia, Italy

f Science and Technology Facilities Council, Rutherford Appleton Laboratory, Harwell Oxford, Didcot, UK

Dates

Received 12 June 2012
Accepted 6 July 2012
Published

Citation

A Morozov et al 2012 JINST 7 P08010

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DOI

https://doi.org/10.1088/1748-0221/7/08/P08010

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1748-0221/7/08/P08010

Abstract

A custom and fully interactive simulation package ANTS (Anger-camera type Neutron detector: Toolkit for Simulations) has been developed to optimize the design and operation conditions of secondary scintillation Anger-camera type gaseous detectors for thermal neutron imaging. The simulation code accounts for all physical processes related to the neutron capture, energy deposition pattern, drift of electrons of the primary ionization and secondary scintillation. The photons are traced considering the wavelength-resolved refraction and transmission of the output window. Photo-detection accounts for the wavelength-resolved quantum efficiency, angular response, area sensitivity, gain and single-photoelectron spectra of the photomultipliers (PMTs). The package allows for several geometrical shapes of the PMT photocathode (round, hexagonal and square) and offers a flexible PMT array configuration: up to 100 PMTs in a custom arrangement with the square or hexagonal packing. Several read-out patterns of the PMT array are implemented. Reconstruction of the neutron capture position (projection on the plane of the light emission) is performed using the center of gravity, maximum likelihood or weighted least squares algorithm. Simulation results reproduce well the preliminary results obtained with a small-scale detector prototype. ANTS executables can be downloaded from http://coimbra.lip.pt/~andrei/.

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10.1088/1748-0221/7/08/P08010