Electron-beam modification of optical properties of phosphate glasses with high concentration of silver

Сидоров, А. И.; Yurina, Uliana V.; Rakhmanova, Gulnaz; Shinkarenko, Marina N.; Podsvirov, O. A.; Fedorov, Yuri K.; Нащекин, А. В.

doi:10.1016/j.jnoncrysol.2018.07.053

Cited by 10 publications

(3 citation statements)

References 31 publications

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“…Silver-containing lanthanum-phosphate glasses were irradiated using electron radiation and the spatial redistribution of silver caused by the field migration of silver ions was observed after irradiation. 49 Similar change in the state of silver and copper in glass was observed using a fs laser. 50 The use of fs laser allows one to modify the nanoparticles features allowing the control and optimization of the linear and nonlinear optical properties of the particles containing glass.…”

Section: +supporting

confidence: 54%

“…. Silver‐containing lanthanum‐phosphate glasses were irradiated using electron radiation and the spatial redistribution of silver caused by the field migration of silver ions was observed after irradiation . Similar change in the state of silver and copper in glass was observed using a fs laser .…”

Section: Impact Of the Glass Composition On Its Response To Radiationmentioning

confidence: 66%

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Radiation effects on phosphate glasses: Review

Petit

2019

Int J of Appl Glass Sci

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Glass and its properties are subject to a variety of changes under the influence of high energy radiation. Therefore, radiation-induced defects in glasses requires high attention due to the wide application of glasses in optics on board space craft, in image guides for reactor inspection, in optical fiber waveguide and in mobilization of high level radioactive waste, for example . In this paper, we present a mini review on radiation effects on phosphate glasses. We review the influence of various irradiation sources on the response of phosphate glasses, focusing on the advances over the past decades. K E Y W O R D Sglass forming systems, phosphate, properties, structure

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Section: +supporting

confidence: 54%

Section: Impact Of the Glass Composition On Its Response To Radiationmentioning

confidence: 66%

Radiation effects on phosphate glasses: Review

Petit

2019

Int J of Appl Glass Sci

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“…Для формирования наночастиц металлов в оптических материалах может быть использован ряд методов. Наночастицы металлов могут быть сформированы в стеклах, содержащих ионы металла, непосредственно при его синтезе в восстановительных условиях [13], методом ионной имплантации [14] или ионного обмена [15] с последующей термообработкой, методом фототермоиндуцированной кристаллизации [13,16], лазерным облучением с последующей термообработкой стекла [6], а также электронно-лучевым методом [17][18][19][20][21]. Достоинством последнего метода является то, что наночастицы металла диаметром 5−10 nm могут быть сформированы в стекле локально, в том числе в нанометровых масштабах.…”

Section: Introductionunclassified

Формирование Наночастиц Натрия И Калия При Локальном Электронном Облучении Щелочно-Галоидных Кристаллов

Сидоров¹,

Юрина²,

Подсвиров³

2019

Журнал Технической Физики

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It is shown experimentally that during local electron irradiation of NaCl, KCl and KBr crystals by electrons with energy 50 keV spherical metal nanoparticles of sodium and potassium with plasmon resonances in visible spectral region are formed. Optical density spectra of crystals after electron irradiation are presented. By computer simulation the possibility of solid or liquid state of nanoparticles is studied, as well as interference effects, which appear in the irradiated zone of crystals.

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