Yu. K. Fedorov scite author profile

Yu. K. Fedorov

5Publications

54Citation Statements Received

15Citation Statements Given

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Affiliations

ITMO University, State Optical Institute named after SI Vavilov

Publications

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Optical, Spectral, and Radiation-Shielding Properties of High-Lead Phosphate Glasses

et al. 2005

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The spectral, optical, physicochemical, radiative, and radiation-shielding properties of glasses in the PbO-P 2 O 5 -R m O n system (where R m O n stands for Group I-V element oxides) are investigated as a function of their composition. The composition of a colorless radiation-resistant high-lead glass suitable for production on a semicommercial scale is determined. The properties and optical quality parameters of the glass are studied. The new phosphate glass is a lead metaphosphate containing aluminum, alkali, and alkaline-earth oxides. This glass is resistant to radiation at doses up to 10 7 R and has an optical transmission edge at 360 nm. The coefficient of absorption of gamma radiation for the new glass is larger than those of dense silicate flints. According to the optical parameters, the new glass lies between dense flints and dense barium flints in the Abbe diagram and compensates for the absence of the latter flints in catalogues of radiation-resistant glasses.

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Large disc-shaped active elements made from neodymium phosphate glass elements made from neodymium phosphate glass

Arbuzov¹,

Lunter²,

Nikitina³

et al. 2003

J. Opt. Technol.

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Some characteristics of population inversion of the⁴I_13/2level of erbium ions in ytterbium–erbium glasses

Artemev¹,

Murzin²,

Fedorov³

et al. 1981

Sov. J. Quantum Electron.

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The Influence of Silicon Oxide on the Mechanical Properties of Metaphosphate Glasses

Baikova

Fedorov

Pukh

et al. 2004

Glass Physics and Chemistry

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Mechanical properties of phosphate glasses as a function of the total bonding energy per unit volume of glass

et al. 2008

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The dependences of the structural strength and the elastic modulus on the chemical composition of phosphate glasses are analyzed. The structural strength and the elastic modulus of phosphate glasses are determined for different types of both the modifier ion and the second glass-former (B 2 O 3 or SiO 2 ) introduced into the glass. The total bonding energy per unit volume of the glass is calculated from the data on the dissociation energy for the oxides entering into the glass composition and the data on the atomic packing density. For four systems of phosphate glasses, it is demonstrated that the Young's modulus depends linearly on the total bonding energy per unit volume of the glass. The dependence of the structural strength on the chemical composition exhibits a more complex behavior and is governed by other additional factors, such as the formation of new structural groups or the change in the structure of the anionic network of the glass.

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Yu. K. Fedorov

Optical, Spectral, and Radiation-Shielding Properties of High-Lead Phosphate Glasses

Large disc-shaped active elements made from neodymium phosphate glass elements made from neodymium phosphate glass

Some characteristics of population inversion of the⁴I_13/2level of erbium ions in ytterbium–erbium glasses

The Influence of Silicon Oxide on the Mechanical Properties of Metaphosphate Glasses

Mechanical properties of phosphate glasses as a function of the total bonding energy per unit volume of glass

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About

Yu. K. Fedorov

Optical, Spectral, and Radiation-Shielding Properties of High-Lead Phosphate Glasses

Large disc-shaped active elements made from neodymium phosphate glass elements made from neodymium phosphate glass

Some characteristics of population inversion of the4I13/2level of erbium ions in ytterbium–erbium glasses

The Influence of Silicon Oxide on the Mechanical Properties of Metaphosphate Glasses

Mechanical properties of phosphate glasses as a function of the total bonding energy per unit volume of glass

Contact Info

Product

Resources

About

Some characteristics of population inversion of the⁴I_13/2level of erbium ions in ytterbium–erbium glasses