Material Identification with Cosmic Ray Muons using RPCs

S. Tripathy; J. Datta; A. Jash; S. Bouri; N. Majumdar; S. Mukhopadhyay; S. Sarkar

doi:10.1088/1748-0221/14/07/C07007

Material Identification with Cosmic Ray Muons using RPCs

S. Tripathy
, J. Datta
, A. Jash
, S. Bouri
, N. Majumdar
, S. Mukhopadhyay
, S. Sarkar

Physics and Astronomy

Saha Institute of Nuclear Physics
Homi Bhabha National Institute
Weizmann Institute of Science
Indian Institute of Technology Kharagpur

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

7 Scopus citations

Abstract

We plan to build an imaging setup for material identification utilizing the Coulomb scattering of cosmic ray muons due to their interaction with the materials and tracking their trajectories with Resistive Plate Chambers (RPCs). To begin with, we consider a setup of six RPCs stacked in a parallel manner to read the position and timing information of the muons before and after their interaction with a phantom of a given material using a set of three RPCs for each phase. Here we present a simulation work carried out to study the image formation of phantoms of several materials. A detailed modeling of the imaging system consisting of six RPCs was done using GEANT4. Cosmic Ray Library (CRY) was used for generation of particles with the appropriate energy and zenith angle distribution. Three reconstruction algorithms were followed for material identification and image reconstruction, viz. Point of Closest Approach (POCA), Iterative POCA and the Binned Cluster Algorithm. A weighted metric discriminator was calculated for target object identification. Using the algorithms, the imaging of the Region of Interest (ROI) lying between the two layers of RPCs was done. The time required to discriminate target objects and do the image reconstruction has been studied.

Original language	English
Article number	C07007
Journal	Journal of Instrumentation
Volume	14
Issue number	7
DOIs	https://doi.org/10.1088/1748-0221/14/07/C07007
State	Published - Jul 12 2019

Keywords

Detector modelling and simulations I (interaction of radiation with matter
interaction of photons with matter, interaction of hadrons with matter, etc); Simulation methods and programs; Resistive-plate chambers

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10.1088/1748-0221/14/07/C07007

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title = "Material Identification with Cosmic Ray Muons using RPCs",

abstract = "We plan to build an imaging setup for material identification utilizing the Coulomb scattering of cosmic ray muons due to their interaction with the materials and tracking their trajectories with Resistive Plate Chambers (RPCs). To begin with, we consider a setup of six RPCs stacked in a parallel manner to read the position and timing information of the muons before and after their interaction with a phantom of a given material using a set of three RPCs for each phase. Here we present a simulation work carried out to study the image formation of phantoms of several materials. A detailed modeling of the imaging system consisting of six RPCs was done using GEANT4. Cosmic Ray Library (CRY) was used for generation of particles with the appropriate energy and zenith angle distribution. Three reconstruction algorithms were followed for material identification and image reconstruction, viz. Point of Closest Approach (POCA), Iterative POCA and the Binned Cluster Algorithm. A weighted metric discriminator was calculated for target object identification. Using the algorithms, the imaging of the Region of Interest (ROI) lying between the two layers of RPCs was done. The time required to discriminate target objects and do the image reconstruction has been studied.",

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author = "S. Tripathy and J. Datta and A. Jash and S. Bouri and N. Majumdar and S. Mukhopadhyay and S. Sarkar",

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AU - Tripathy, S.

AU - Datta, J.

AU - Jash, A.

AU - Bouri, S.

AU - Majumdar, N.

AU - Mukhopadhyay, S.

AU - Sarkar, S.

PY - 2019/7/12

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N2 - We plan to build an imaging setup for material identification utilizing the Coulomb scattering of cosmic ray muons due to their interaction with the materials and tracking their trajectories with Resistive Plate Chambers (RPCs). To begin with, we consider a setup of six RPCs stacked in a parallel manner to read the position and timing information of the muons before and after their interaction with a phantom of a given material using a set of three RPCs for each phase. Here we present a simulation work carried out to study the image formation of phantoms of several materials. A detailed modeling of the imaging system consisting of six RPCs was done using GEANT4. Cosmic Ray Library (CRY) was used for generation of particles with the appropriate energy and zenith angle distribution. Three reconstruction algorithms were followed for material identification and image reconstruction, viz. Point of Closest Approach (POCA), Iterative POCA and the Binned Cluster Algorithm. A weighted metric discriminator was calculated for target object identification. Using the algorithms, the imaging of the Region of Interest (ROI) lying between the two layers of RPCs was done. The time required to discriminate target objects and do the image reconstruction has been studied.

AB - We plan to build an imaging setup for material identification utilizing the Coulomb scattering of cosmic ray muons due to their interaction with the materials and tracking their trajectories with Resistive Plate Chambers (RPCs). To begin with, we consider a setup of six RPCs stacked in a parallel manner to read the position and timing information of the muons before and after their interaction with a phantom of a given material using a set of three RPCs for each phase. Here we present a simulation work carried out to study the image formation of phantoms of several materials. A detailed modeling of the imaging system consisting of six RPCs was done using GEANT4. Cosmic Ray Library (CRY) was used for generation of particles with the appropriate energy and zenith angle distribution. Three reconstruction algorithms were followed for material identification and image reconstruction, viz. Point of Closest Approach (POCA), Iterative POCA and the Binned Cluster Algorithm. A weighted metric discriminator was calculated for target object identification. Using the algorithms, the imaging of the Region of Interest (ROI) lying between the two layers of RPCs was done. The time required to discriminate target objects and do the image reconstruction has been studied.

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VL - 14

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Material Identification with Cosmic Ray Muons using RPCs

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