N A Voronova scite author profile

We examined pore formation in thermally oxidized silicon wafers (SiO2 / Si) by means of swift heavy ion irradiation followed by chemical etching of latent track zones in SiO2 matrix. The samples were irradiated with 710 MeV Bi up to the fluences of (1-5)·108 and 5·10 10 cm −2 . Afterwards the targets were etched in the dilute solutions of hydrofluoric acid for various durations. Scanning electron microscopy was used to probe the processed samples. From the geometric parameters of the pores the etch rate Vt of the tracks and the etch rate V b of bulk a-SiO2 were estimated. The etching behaviour and morphology of the etched tracks has been found to change markedly with fluence. Mutual influence of tracks at their higher densities was analysed in terms of radiation-induced modifications of material around the ion path. It was shown that the morphology of etched tracks did not change after the annealing at 900• C for 30 min.

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Computer Modeling of Depth Distribution of Vacancy Nanoclusters in Ion-Irradiated Materials

Voronova

Купчишин

Kupchishin

et al. 2018

KEM

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Cascade-probabilistic methods and solution of Boltzman type of equations for particle flow

Купчишин

Kupchishin

Voronova

2016

IOP Conf. Ser.: Mater. Sci. Eng.

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Positron sensing of distribution of defects in depth materials

Купчишин

Kupchishin

Voronova

et al. 2016

IOP Conf. Ser.: Mater. Sci. Eng.

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N A Voronova

Automated lung sound analysis using the LungPass platform: a sensitive and specific tool for identifying lower respiratory tract involvement in COVID-19

Etched track morphology in SiO₂irradiated with swift heavy ions

Computer Modeling of Depth Distribution of Vacancy Nanoclusters in Ion-Irradiated Materials

Cascade-probabilistic methods and solution of Boltzman type of equations for particle flow

Positron sensing of distribution of defects in depth materials

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N A Voronova

Automated lung sound analysis using the LungPass platform: a sensitive and specific tool for identifying lower respiratory tract involvement in COVID-19

Etched track morphology in SiO2irradiated with swift heavy ions

Computer Modeling of Depth Distribution of Vacancy Nanoclusters in Ion-Irradiated Materials

Cascade-probabilistic methods and solution of Boltzman type of equations for particle flow

Positron sensing of distribution of defects in depth materials

Contact Info

Product

Resources

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Etched track morphology in SiO₂irradiated with swift heavy ions