Radiography with cosmic-ray and compact accelerator muons; Exploring inner-structure of large-scale objects and landforms

Nagamine, K.

doi:10.2183/pjab.92.265

Cited by 14 publications

(8 citation statements)

References 48 publications

(78 reference statements)

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“…Projects like MU-RAY [19], ToMuVol [20], and DIAPHANE [21] use hodoscopes based on different detection technologies: emulsion plates, resistive plate chambers, micromegas, multi-wire proportional chambers, and scintillators, just to mention the most common ones. Each of these techniques has advantages and disadvantages: emulsion plate detectors [4,22] provide an excellent spatial resolution of the order of sub-microns, are passive, and easy to handle. On the other hand, they have short lifetimes, and it is not possible to discriminate the time-stamp of dynamic phenomena, because the recorded events accumulate in the plates.…”

Section: Jinst 15 P08004mentioning

confidence: 99%

Simulated response of MuTe, a hybrid Muon Telescope

Vásquez-Ramírez¹,

Suárez-Durán²,

Jaimes-Motta³

et al. 2020

J. Inst.

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In this paper we present a complete and detailed computational model of the response of the hybrid Muon Telescope (MuTe), designed to perform muography volcanic studies. This instrument combines two particle detection techniques: first, a muon hodoscope based on two panels of plastic scintillator bars; and a Water Cherenkov detector located behind the rear scintillator panel acting both as a coincidence and a discriminating detector. The simulation model includes: materials, geometries, dimensions, and the photo-sensitiveness of the detectors. The simulation results, in agreement with the measured data, were used to set up the muon detector trigger for the expected energy dependent signal.

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Section: Jinst 15 P08004mentioning

confidence: 99%

Simulated response of MuTe, a hybrid Muon Telescope

Vásquez-Ramírez¹,

Suárez-Durán²,

Jaimes-Motta³

et al. 2020

J. Inst.

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“…Cosmic-ray muon spin rotation radiography T. Fujimaki 3 (GeV to TeV) and low intensity (1/(cm) 2 /min in vertical direction) [11], a mixed charge state (60% µ + and 40% µ − ) and a partial spin polarization (-0.33 for µ + [12]). Because of high energy nature, a stopping distribution of the cosmic-ray muon in concrete extends from cm to a few km in depth.…”

Section: Pos(icrc2017)221mentioning

confidence: 99%

“…For inspection of the inner structure of the large-scale architectures, a use of cosmic-ray muon is quite effective to observe large scale objectives and landforms [2]. The structure of the Second Pyramid of Giza was confirmed to have no hidden chambers by measuring directional variation of cosmic-ray muons incident to the detectors installed in the Pyramid [3].…”

Section: Introductionmentioning

confidence: 99%

Development of cosmic-ray muon spin rotation radiography to investigate chemical and physical states of steels in large-scale architecture

Fujimaki¹,

Nagamine²,

Torikai³

et al. 2017

Proceedings of 35th International Cosmic Ray Conference — PoS(ICRC2017)

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We propose a cosmic-ray muon spin rotation radiography to investigate physical and chemical status of steels in large-scale architectures based on the experimental results obtained for Fe and concrete by using cosmic-ray and accelerator muons. Spin polarized positive muons contained in the cosmic-rays were stopped in the Fe plates provide a characteristic spin rotation signal of decay positrons. Signals of decay electrons from negative muons stopped in Fe are separated from those of decay positrons, by nature of their different lifetimes in the samples. After subtraction of decay electrons, we have successfully extracted muon spin rotation with 47.2 ± 0.7 MHz in frequency and 8.7 ± 4.6 μs -1 in relaxation rate. These values are consistent with those obtained from reference experiment using intensive muons provided by an accelerator, verifying validity of analysis. This method is quite promising to investigate steels at near-surface (20 cm thick from the surface).

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“…Muography is a non-invasive technique for imaging anthropic and geologic structures [1][2][3][4][5][6][7][8][9][10][11][12] by measuring the crossing muon flux using sensitive hodoscopes made of nuclear emulsions [2,13], gaseous chambers [14][15][16][17] and scintillators [4,8,11,[18][19][20]. Scintillation hodoscopes provide flexibility on the implementation, low cost, and robustness against environmental variables such as humidity, temperature, and atmospheric pressure [21].…”

Section: Introductionmentioning

confidence: 99%

Characterization and on-field performance of the MuTe Silicon Photomultipliers

Sánchez-Villafrades¹,

Peña-Rodríguez²,

Asorey³

et al. 2021

Preprint

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A: The Muon Telescope is a muography experiment for imaging volcanoes in Colombia. It consists of a scintillator tracking system and a water Cherenkov detector used for particle deposited energy measurement. The MuTe operates autonomously in high altitude environments where the temperature gradient reaches up to 10 • C. In this work, we characterize the breakdown voltage, gain, and noise of the telescope silicon photomultipliers for temperature variations spanning 0 to 40 • C. We demonstrated that the discrimination threshold for the MuTe hodoscope must be above 5 pe to avoid contamination due to the SiPM dark count, crosstalk, and afterpulsing. We also assess the MuTe counting rate depending on day-night temperature variations.

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Radiography with cosmic-ray and compact accelerator muons; Exploring inner-structure of large-scale objects and landforms

Cited by 14 publications

References 48 publications

Simulated response of MuTe, a hybrid Muon Telescope

Simulated response of MuTe, a hybrid Muon Telescope

Development of cosmic-ray muon spin rotation radiography to investigate chemical and physical states of steels in large-scale architecture

Characterization and on-field performance of the MuTe Silicon Photomultipliers

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