Applying triangular correlation of angular deviation in muon scattering tomography for multi-block materials via GEANT4 simulations

TL;DR

This paper demonstrates that the triangular correlation of angular deviations in muon scattering can be used to predict the order of different materials in multi-block configurations, validated through GEANT4 simulations.

Contribution

It introduces the application of triangular correlation in muon scattering tomography for multi-block materials, enabling coarse prediction of material order.

Findings

Triangular correlation holds in multi-block setups.

Simulation confirms potential for material order prediction.

Supports coarse material identification in complex configurations.

Abstract

The scattering angle due to the target volume can be split into two interior angles in the tomographic setups based on the muon scattering, and we call this property as the triangular correlation where the sum of these two interior angles is equal to the scattering angle. In this study, we apply this triangular correlation for a multi-block material configuration that consist of concrete, stainless steel, and uranium. By changing the order of this material set, we employ the GEANT4 simulations and we show that the triangular correlation is valid in the multi-block material setups, thereby providing the possibility of supportive information for the coarse prediction of the material order in such configurations.