Latent image stabilization in nuclear emulsions for cosmic-ray imaging

Latent image stability is one of the most important characteristics of nuclear emulsions for cosmic-ray imaging. The emulsions studied are composed of AgBrI grains (about 200 nm in diameter) with a benzothiazolium compound (Additive Ⅰ) as a new latent-image stabilizer, and characterized by means of...

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Bibliographic Details
Published inNuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment Vol. 975; p. 164163
Main Authors Tani, Tadaaki, Nishio, Akira, Uchida, Takayuki, Morishima, Kunihiro
Format Journal Article
LanguageEnglish
Published Elsevier B.V 21.09.2020
Subjects
Benzotriazolium compound
Cosmic-ray imaging
Latent image fading
Nuclear emulsion
Photoelectron spectroscopy
Cosmic-ray imaging
Benzotriazolium compound
Photoelectron spectroscopy
Latent image fading
Nuclear emulsion
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Summary:Latent image stability is one of the most important characteristics of nuclear emulsions for cosmic-ray imaging. The emulsions studied are composed of AgBrI grains (about 200 nm in diameter) with a benzothiazolium compound (Additive Ⅰ) as a new latent-image stabilizer, and characterized by means of photoelectron yield spectroscopy in air (PYSA). The results thus observed are discussed in the light of the mechanism of latent image formation. A latent image center is composed of a small Ag cluster, and situated at a site with electric charge of +1/2, thus being expressed as Agn+1∕2. The growth processes for a latent image center are the trapping of an electron by Agn−1+1∕2 to form Agn−1−1∕2 (electronic process), and the attachment of an interstitial silver ion to Agn−1−1∕2 to form Agn+1∕2 (ionic process). It is thus considered that the first step of a latent image fading is its discharge of a silver ion to form Agn−1−1∕2, and that the second step is the oxidation of Agn−1−1∕2 to form Agn−1+1∕2. It is proposed and has been confirmed by means of PYSA that Additive Ⅰ opens its ring to disclose –SH and depresses the first step of latent image fading by forming on a latent image center barely soluble silver salt with tolerance to oxidation. Discussions have been made on latent image stabilization in nuclear emulsions for cosmic-ray imaging.
ISSN:0168-9002
1872-9576
DOI:10.1016/j.nima.2020.164163