Extra-large crystal emulsion detectors for future large-scale experiments

Ariga, T.; Ariga, A.; Kuwabara, Kei; Morishima, Keisuke; Moto, Masaki; Nishio, Akira; Scampoli, P.; Vladymyrov, Mykhailo

doi:10.1088/1748-0221/11/03/p03003

Cited by 9 publications

(6 citation statements)

References 11 publications

(18 reference statements)

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“…The production of new types of emulsions with crystal sizes of 600-1000 nm, 3-5 times larger than those of standard films, has been studied and realised using the gel production machine at Nagoya University. The first results characterising newly produced emulsions have been reported [126], showing a sufficient sensitivity and a good signal to noise ratio (Fig. 9.18).…”

Section: Large Grain Emulsion Productionmentioning

confidence: 86%

“…Right: Tracks of Kr ions in such an emulsion, as seen with a scanning electron microscope Fig. 9.18 Electron microscope pictures of silver halide crystals (left) and electron tracks (right) in a conventional film and in the newly developed samples [126] oscillation experiments mentioned above was 200 nm and has never been larger than 300 nm in previous experiments. The production of new types of emulsions with crystal sizes of 600-1000 nm, 3-5 times larger than those of standard films, has been studied and realised using the gel production machine at Nagoya University.…”

Section: Large Grain Emulsion Productionmentioning

confidence: 92%

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Nuclear Emulsions

Ariga¹,

Ariga²,

Lellis³

et al. 2020

Particle Physics Reference Library

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Section: Large Grain Emulsion Productionmentioning

confidence: 86%

Section: Large Grain Emulsion Productionmentioning

confidence: 92%

Nuclear Emulsions

Ariga¹,

Ariga²,

Lellis³

et al. 2020

Particle Physics Reference Library

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“…Currently, in experiments conducted using the method of muon radiography, both electronic and emulsion track detectors are used. Emulsion detectors [11,12] have a number of advantages, with the main one being a high angular resolution. Of all the muon radiography detectors, the emulsion ones have the best angular resolution.…”

Section: The Archaeological Site Probing By Muon Radiography Methodsmentioning

confidence: 99%

Muon Radiography Method for Non-Invasive Probing an Archaeological Site in the Naryn-Kala Citadel

et al. 2019

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The paper presents the test experiment to investigate one of UNESCO’s (United Nations Educational, Scientific and Cultural Organization) world heritage objects, an archaeological site in the Naryn-Kala citadel (Derbent, Republic of Dagestan, Russian Federation) hidden under the ground’s surface. The function of the site could be revealed by the muon radiography studies. Several nuclear emulsion detectors were exposed for two months inside the site at a depth about 10 m from the modern surface. The use of nuclear emulsions as probing radiation detectors combined with the potential of modern image analysis methods provides for a uniquely high resolution capacity of recording instrumentation and 3D reconstruction of the internal structure of the investigated object. Here we present the experiment and data analysis details and the first results.

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“…Recently, we produced various-sized crystals according to the purposes of experiments. The minimum-sized crystals (the diameter is 30-40 nm) are being developed for dark matter directional searches [6], and the maximum-sized crystals (∼800 nm) for the long term observation requesting the stability of the latent image [7]. The environment of the mass production of films is constructed in the laboratory.…”

Section: Emulsion Gel Productionmentioning

confidence: 99%

Latest nuclear emulsion technology

et al. 2017

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Abstract. Nuclear emulsion is a extremely high-resolution 3D tracking detector. Since the discovery of the pion by C.F. Powell et al. in 1946, experiments with nuclear emulsions have contributed to the development of particle physics. (e.g. the OPERA collaboration reported the discovery of ν µ → ν τ oscillations in appearance mode in 2015) The technology of nuclear emulsion still keeps making progress. Since 2010, we have introduced a system of nuclear emulsion gel production to our laboratory in Nagoya University, and have started self-development of the new gel, instead of from the photographic film companies. Moreover, a faster automated emulsion scanning system is developed. Its scanning speed reaches 4000 cm 2 /h, and the load for analyzing becomes more and more lighter. In this presentation, we report the status of nuclear emulsion technologies for cosmic ray experiments.

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Extra-large crystal emulsion detectors for future large-scale experiments

Cited by 9 publications

References 11 publications

Nuclear Emulsions

Nuclear Emulsions

Muon Radiography Method for Non-Invasive Probing an Archaeological Site in the Naryn-Kala Citadel

Latest nuclear emulsion technology

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