The Study of Neutrino Oscillations with Emulsion Detectors

Ereditato, A.

doi:10.1155/2013/382172

Cited by 50 publications

(20 citation statements)

References 66 publications

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“…Nuclear emulsions are composed of silver-bromide microcrystals with a diameter of approximately 0.2 µm, embedded in a gelatin matrix. The latent image left by the passage of ionizing particles is developed via a chemical process to silver grains approximately 1 µm in diameter, visible through an optical microscope (see [11] for a review of the technology). The emulsion gel used in this work was produced at the Nagoya University in Japan.…”

Section: Methodsmentioning

confidence: 99%

Nuclear emulsions for the detection of micrometric-scale fringe patterns: an application to positron interferometry

et al. 2018

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Nuclear emulsions are capable of very high position resolution in the detection of ionizing particles. This feature can be exploited to directly resolve the micrometric-scale fringe pattern produced by a matter-wave interferometer for low energy positrons (in the 10-20 keV range). We have tested the performance of emulsion films in this specific scenario. Exploiting silicon nitride diffraction gratings as absorption masks, we produced periodic patterns with features comparable to the expected interferometer signal. Test samples with periodicities of 6, 7 and 20 µm were exposed to the positron beam, and the patterns clearly reconstructed. Our results support the feasibility of matter-wave interferometry experiments with positrons.

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Section: Methodsmentioning

confidence: 99%

Nuclear emulsions for the detection of micrometric-scale fringe patterns: an application to positron interferometry

et al. 2018

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“…The passage of ionizing radiation across a crystal produces a latent image which, after a chemical development process, leads to the creation of a ∼ 1 µm silver grain visible by means of an optical microscope. A review on the technology can be found in [1].…”

Section: Methodsmentioning

confidence: 99%

“…A sketch of the experimental setup1 Referring to the emulsions produced by the Fuji company in Japan for the OPERA neutrino experiment with a silver bromide content of ∼30% and a background of ∼3 grains/1000 µm 3 .…”

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Detection of low energy antimatter with emulsions

Aghion¹,

Ariga²,

Ariga³

et al. 2016

J. Inst.

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Emulsion detectors feature a very high position resolution and consequently represent an ideal device when particle detection is required at the micrometric scale. This is the case of quantum interferometry studies with antimatter, where micrometric fringes have to be measured. In this framework, we designed and realized a new emulsion based detector characterized by a gel enriched in terms of silver bromide crystal contents poured on a glass plate. We tested the sensitivity of such a detector to low energy positrons in the range 10-20 keV. The obtained results prove that nuclear emulsions are highly efficient at detecting positrons at these energies. This achievement paves the way to perform matter-wave interferometry with positrons using this technology.

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“…Emulsion detectors consist of silver halide (AgX) crystals homogeneously dispersed in a gelatin support, whose standard size is about 200 nm. Each crystal acts as an independent charged particle detector and a particle track is made visible after the chemical development under an optical microscope in terms of metallic silver filaments (for a review on the technique, see [1]). Briefly, as far as the emulsion production is concerned, a gel with silver halide crystals is the result of a double decomposition reaction between water-soluble silver salt and water-soluble halide salt to form insoluble AgX grains in an aqueous gelatin solution [12].…”

Section: Production Of Emulsion Gel With Large Silver Halide Crystalsmentioning

confidence: 99%

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

Ariga

Kuwabara

et al. 2016

J. Inst.

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Photographic emulsion is a particle tracking device which features the best spatial resolution among particle detectors. For certain applications, for example muon radiography, largescale detectors are required. Therefore, a huge surface has to be analyzed by means of automated optical microscopes. An improvement of the readout speed is then a crucial point to make these applications possible and the availability of a new type of photographic emulsions featuring crystals of larger size is a way to pursue this program. This would allow a lower magnification for the microscopes, a consequent larger field of view resulting in a faster data analysis. In this framework, we developed new kinds of emulsion detectors with a crystal size of 600-1000 nm, namely 3-5 times larger than conventional ones, allowing a 25 times faster data readout. The new photographic emulsions have shown a sufficient sensitivity and a good signal to noise ratio. The proposed development opens the way to future large-scale applications of the technology, e.g. 3D imaging of glacier bedrocks or future neutrino experiments.

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The Study of Neutrino Oscillations with Emulsion Detectors

Cited by 50 publications

References 66 publications

Nuclear emulsions for the detection of micrometric-scale fringe patterns: an application to positron interferometry

Nuclear emulsions for the detection of micrometric-scale fringe patterns: an application to positron interferometry

Detection of low energy antimatter with emulsions

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

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