2012
DOI: 10.1063/1.4766179
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Obtaining material identification with cosmic ray radiography

Abstract: The passage of muons through matter is mostly affected by their Coulomb interactions with electrons and nuclei. The muon interactions with electrons lead to continuous energy loss and stopping of muons, while their scattering off nuclei lead to angular "diffusion". By measuring both the number of stopped muons and angular changes in muon trajectories we can estimate density and identify materials. Here we demonstrate the material identification using data taken at Los Alamos with the Mini Muon Tracker.

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Cited by 33 publications
(24 citation statements)
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“…In the LANL experiment, 16,17) multiplanes of drift tubes are used for the PSDs. There, the detectors measured position and angle to precisions of 400 µm (FWHM) and approximately 2 mrad, respectively.…”
Section: A Detailed Description Of Crm Transmission Radiographymentioning
confidence: 99%
“…In the LANL experiment, 16,17) multiplanes of drift tubes are used for the PSDs. There, the detectors measured position and angle to precisions of 400 µm (FWHM) and approximately 2 mrad, respectively.…”
Section: A Detailed Description Of Crm Transmission Radiographymentioning
confidence: 99%
“…The scattering angle distribution for each pixel is fitted to obtain the average radiation length by using a recently developed multigroup description of the muon energy spectrum. 26 The angular distributions are fitted with a sum of Gaussians, with amplitudes corresponding to the distribution of muon energies and the widths depending on the amount and composition of material. The spectrum is calibrated to the integrated radiation length expected for a muon crossing the UNMRR.…”
Section: B Image Reconstruction Methodsmentioning
confidence: 99%
“…By measuring the positional distribution of the intensity attenuation of the penetrating cosmic-rays, the inner-structure of the world's largest blast furnaces of the Nippon Steel Corporation have been studied during a time of its full operation [5], based upon the experiences of radiography of the volcanic mountains [4,6]. Investigations of the inner status of the damaged Fukushima nuclear reactors are in progress by using multiple-scattering method of cosmic-ray muons [7,8] along with the transmission radiography [9]. However, it is hard to detect chemical as well as physical properties of steels by transmission or multiple scattering methods.…”
Section: Introductionmentioning
confidence: 99%