The Electron Spin Resonance (Esr) Spectra of Potassium-Alumina-Borate Glass Doped with Copper Ions

The Electron Spin Resonance (Esr) Spectra of Potassium-Alumina-Borate Glass Doped with Copper Ions

We investigate electron spin resonance (ESR), absorption, and photoluminescence spectra of potassium-boron copper-containing glasses. In previous works it was found, that the considered glasses demonstrate a red shift of photoluminescence. In present work, we provide an evidence on the formation in...

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Main Authors: Shirshnev P.S., Eremina R.M., Yatsyk I.V., Snezhnaia Zh.G., Panov D.I., Shirshneva-Vaschenko E.V., Romanov A.E., Bougrov V.E.
Format: Article
Language:English
Published: De Gruyter 2018-07-01
Series:Reviews on Advanced Materials Science
Online Access:https://doi.org/10.1515/rams-2018-0066
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spelling doaj-972b203f873e4cfba9a2613a3b29dbbf2021-09-05T14:00:07ZengDe GruyterReviews on Advanced Materials Science1605-81272018-07-0157221221410.1515/rams-2018-0066The Electron Spin Resonance (Esr) Spectra of Potassium-Alumina-Borate Glass Doped with Copper IonsShirshnev P.S.0Eremina R.M.1Yatsyk I.V.2Snezhnaia Zh.G.3Panov D.I.4Shirshneva-Vaschenko E.V.5Romanov A.E.6Bougrov V.E.7ITMO University, Kronverkskiy prospect 49,Saint-Petersburg, 197101, RussiaZavoisky Physical-Technical Institute, FRC Kazan Scientific Center of RAS, Sibirskiy tract 10/7,Kazan, 420029, RussiaZavoisky Physical-Technical Institute, FRC Kazan Scientific Center of RAS, Sibirskiy tract 10/7,Kazan, 420029, RussiaITMO University, Kronverkskiy prospect 49,Saint-Petersburg, 197101, RussiaITMO University, Kronverkskiy prospect 49,Saint-Petersburg, 197101, RussiaITMO University, Kronverkskiy prospect 49,Saint-Petersburg, 197101, RussiaITMO University, Kronverkskiy prospect 49,Saint-Petersburg, 197101, RussiaITMO University, Kronverkskiy prospect 49,Saint-Petersburg, 197101, RussiaWe investigate electron spin resonance (ESR), absorption, and photoluminescence spectra of potassium-boron copper-containing glasses. In previous works it was found, that the considered glasses demonstrate a red shift of photoluminescence. In present work, we provide an evidence on the formation in glasses specific copper-containing structures that can be responsible for the red shift of photoluminescence “copper” band.https://doi.org/10.1515/rams-2018-0066
collection DOAJ
language English
format Article
sources DOAJ
author Shirshnev P.S.
Eremina R.M.
Yatsyk I.V.
Snezhnaia Zh.G.
Panov D.I.
Shirshneva-Vaschenko E.V.
Romanov A.E.
Bougrov V.E.
spellingShingle Shirshnev P.S.
Eremina R.M.
Yatsyk I.V.
Snezhnaia Zh.G.
Panov D.I.
Shirshneva-Vaschenko E.V.
Romanov A.E.
Bougrov V.E.
The Electron Spin Resonance (Esr) Spectra of Potassium-Alumina-Borate Glass Doped with Copper Ions
Reviews on Advanced Materials Science
author_facet Shirshnev P.S.
Eremina R.M.
Yatsyk I.V.
Snezhnaia Zh.G.
Panov D.I.
Shirshneva-Vaschenko E.V.
Romanov A.E.
Bougrov V.E.
author_sort Shirshnev P.S.
title The Electron Spin Resonance (Esr) Spectra of Potassium-Alumina-Borate Glass Doped with Copper Ions
title_short The Electron Spin Resonance (Esr) Spectra of Potassium-Alumina-Borate Glass Doped with Copper Ions
title_full The Electron Spin Resonance (Esr) Spectra of Potassium-Alumina-Borate Glass Doped with Copper Ions
title_fullStr The Electron Spin Resonance (Esr) Spectra of Potassium-Alumina-Borate Glass Doped with Copper Ions
title_full_unstemmed The Electron Spin Resonance (Esr) Spectra of Potassium-Alumina-Borate Glass Doped with Copper Ions
title_sort electron spin resonance (esr) spectra of potassium-alumina-borate glass doped with copper ions
publisher De Gruyter
series Reviews on Advanced Materials Science
issn 1605-8127
publishDate 2018-07-01
description We investigate electron spin resonance (ESR), absorption, and photoluminescence spectra of potassium-boron copper-containing glasses. In previous works it was found, that the considered glasses demonstrate a red shift of photoluminescence. In present work, we provide an evidence on the formation in glasses specific copper-containing structures that can be responsible for the red shift of photoluminescence “copper” band.
url https://doi.org/10.1515/rams-2018-0066
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