Е.А. Баранов scite author profile

Е.А. Баранов

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Электронно-Пучковая Кристаллизация Тонких Пленок Аморфного Субоксида Кремния

Баранов¹,

Константинов²,

Щукин³

et al. 2021

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Polycrystalline silicon (poly-Si) has been obtained for the first time as a result of an electron beam irradiation of amorphous hydrogenated silicon suboxide films with a stoichiometric coefficient of 0.5 (a-SiO0.5:H) and a thickness of 580 nm. The accelerating voltage of the electron beam was 2000 V, and the beam current was 100 mA. Raman spectra of silicon films after annealing are obtained depending on the time of electron beam irradiation of the initial material. It is shown that as a result of annealing, poly-Si is formed, the stress in which varied from compression to tension depending on the time of exposure.

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Формирование нанокристаллов и аморфных нанокластеров германия в пленках GeO[SiO] и GeO[SiO-=SUB=-2-=/SUB=-] с использованием электронно-пучкового отжига

Константинов¹,

Баранов²,

Zhang³

et al. 2022

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Electron beam annealing was carried out to form amorphous and crystalline germanium clusters in GeO[SiO] and GeO[SiO2] films deposited on quartz and monocrystalline silicon substrates. Using electron microscopy, Raman spectroscopy, and light transmission and reflection spectroscopy, the structural transformations of the films and their optical properties were studied. From the analysis of Raman spectra, it was shown that amorphous germanium nanoclusters are present in the initial GeO[SiO] film, while they are not observed in the initial GeO[SiO2] film. Regimes of electron-beam annealing which are necessary for the formation of germanium nanocrystals in GeO[SiO] and GeO[SiO2] films were found. It was shown that, at the same annealing parameters, the fraction of the crystalline phase of germanium in GeO[SiO] films were smaller than in GeO[SiO2] films. In addition, it was found that the fraction of the crystalline phase at the same annealing parameters is larger for films on a quartz substrate than on monocrystalline silicon substrate. The sizes of germanium nanocrystals formed as a result of electron beam annealing were determined from Raman spectra analysis. The proposed method of obtaining amorphous germanium nanoclusters and nanocrystals in films of nonstoichiometric germanosilicate glasses using electron beam annealing can be used to create ordered arrays of such nanostructures.

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