Silver photodiffusion into Ge-rich amorphous germanium sulfide—neutron reflectivity study

Silver diffuses into chalcogenide films upon light exposure, and the kinetics of photodiffusion has been a subject of various investigations because of the difficulties in the in situ determination of the time-dependent Ag reaction and diffusion development in the chalcogenide layers. In this paper,...

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Published inJournal of applied physics Vol. 122; no. 23
Main Authors Sakaguchi, Y., Asaoka, H., Mitkova, M.
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 21.12.2017
Subjects
Applied physics
Chalcogenides
Diffusion layers
Germanium
Reaction kinetics
Reflectance
Relaxation time
Silicon substrates
Silver
Thickness
Time dependence
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Abstract Silver diffuses into chalcogenide films upon light exposure, and the kinetics of photodiffusion has been a subject of various investigations because of the difficulties in the in situ determination of the time-dependent Ag reaction and diffusion development in the chalcogenide layers. In this paper, we report the results of time-resolved neutron reflectivity measurement of Ag/Ge40S60/Si substrates under light exposure to clarify the kinetics of Ag photodiffusion into Ge-rich Ge chalcogenides. It reveals that Ag ions diffuse all over the Ge chalcogenide host layer once Ag dissolves into the layer without forming a metastable reaction layer unlike the case of S-rich Ge chalcogenide such as Ge20S80. The decay curve suggests that the Ag dissolution is determined by two types of Ag capturing chalcogen sites. Also, the observed relaxation time showed anomalous chalcogenide layer thickness dependence. This is attributed to an additional diffusion-driven accelerating factor, which is unique to the silver photodiffusion. Furthermore, we observed indicative changes in the formation of an inhomogeneous in-plane structure at the Ag/chalcogenide interface. This would be related to the nucleation and growth of the Ag-dissolved reaction product.
AbstractList Silver diffuses into chalcogenide films upon light exposure, and the kinetics of photodiffusion has been a subject of various investigations because of the difficulties in the in situ determination of the time-dependent Ag reaction and diffusion development in the chalcogenide layers. In this paper, we report the results of time-resolved neutron reflectivity measurement of Ag/Ge40S60/Si substrates under light exposure to clarify the kinetics of Ag photodiffusion into Ge-rich Ge chalcogenides. It reveals that Ag ions diffuse all over the Ge chalcogenide host layer once Ag dissolves into the layer without forming a metastable reaction layer unlike the case of S-rich Ge chalcogenide such as Ge20S80. The decay curve suggests that the Ag dissolution is determined by two types of Ag capturing chalcogen sites. Also, the observed relaxation time showed anomalous chalcogenide layer thickness dependence. This is attributed to an additional diffusion-driven accelerating factor, which is unique to the silver photodiffusion. Furthermore, we observed indicative changes in the formation of an inhomogeneous in-plane structure at the Ag/chalcogenide interface. This would be related to the nucleation and growth of the Ag-dissolved reaction product.
Author Mitkova, M.
Asaoka, H.
Sakaguchi, Y.
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  organization: Department of Electrical and Computer Engineering, Boise State University (BSU)
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Snippet Silver diffuses into chalcogenide films upon light exposure, and the kinetics of photodiffusion has been a subject of various investigations because of the...
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SubjectTerms Applied physics
Chalcogenides
Diffusion layers
Germanium
Reaction kinetics
Reflectance
Relaxation time
Silicon substrates
Silver
Thickness
Time dependence
Title Silver photodiffusion into Ge-rich amorphous germanium sulfide—neutron reflectivity study
URI http://dx.doi.org/10.1063/1.5000858
https://www.proquest.com/docview/2116005136
Volume 122
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