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Publications in Math-Net.Ru |
Citations |
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2021 |
| 1. |
V. A. Nebol'sin, N. A. Swaikat, A. Yu. Vorob'ev, T. A. Perepechina, L. V. Ozhogina, “Formation of an oxide surface layer and its influence on the growth of epitaxial silicon nanowires”, Fizika i Tekhnika Poluprovodnikov, 55:9 (2021), 798–806   ; Semiconductors, 55:10 (2021), 771–779 |
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2007 |
| 2. |
A. Yu. Vorob'ev, V. A. Petrov, V. E. Titov, S. A. Ulybin, “The effect of vacuum on the reflectivity of alumina ceramics under conditions of melting by concentrated laser radiation and subsequent free cooling”, TVT, 45:6 (2007), 856–861 ; High Temperature, 45:6 (2007), 779–784   |
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| 3. |
A. Yu. Vorob'ev, V. A. Petrov, V. E. Titov, “Fast heating and melting of alumina under the effect of concentrated laser radiation”, TVT, 45:4 (2007), 533–542 ; High Temperature, 45:4 (2007), 478–487 |
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| 4. |
A. Yu. Vorob'ev, V. A. Petrov, V. E. Titov, A. P. Chernyshov, “The reflectivity of alumina ceramics under intense surface heating and subsequent free cooling”, TVT, 45:1 (2007), 19–27 ; High Temperature, 45:1 (2007), 13–21 |
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2003 |
| 5. |
A. Yu. Vorob'ev, V. A. Petrov, V. E. Titov, S. A. Ulybin, “Rapid crystallization of refractory oxides and the possibility of formation of a two-phase zone”, TVT, 41:6 (2003), 926–934 ; High Temperature, 41:6 (2003), 825–832 |
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2002 |
| 6. |
A. Yu. Vorob'ev, V. A. Petrov, “Spectral Reflectivity of Ceramics of Cubic Zirconium Oxide on the Wavelength of $0.63$ $\mu$m under Intense Surface Heating above the Melting Point and Subsequent Cooling”, TVT, 40:6 (2002), 898–903 ; High Temperature, 40:6 (2002), 832–837 |
| 7. |
F. A. Akopov, G. E. Val'yano, A. Yu. Vorob'ev, V. N. Mineev, V. A. Petrov, A. P. Chernyshov, G. P. Chernyshov, “Rapid Solidification of $\mathrm{ZrO}_2$–$8$ mol $\%$ $\mathrm{Y}_2\mathrm{O}_3$ Melt under Conditions of Stepwise Reduction of Heating. Determination of the Liquidus and Solidus Temperatures”, TVT, 40:1 (2002), 61–67 ; High Temperature, 40:1 (2002), 55–61 |
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2001 |
| 8. |
F. A. Akopov, G. E. Val'yano, A. Yu. Vorob'ev, V. N. Mineev, V. A. Petrov, A. P. Chernyshov, G. P. Chernyshov, “Rapid solidification of $\mathrm{ZrO}_2$–$8$ mol $\%$ $\mathrm{Y}_2\mathrm{O}_3$ melt”, TVT, 39:6 (2001), 910–920 ; High Temperature, 39:6 (2001), 846–855 |
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| 9. |
F. A. Akopov, G. E. Val'yano, A. Yu. Vorob'ev, V. N. Mineev, V. A. Petrov, A. P. Chernyshov, G. P. Chernyshov, “Thermal radiative properties of ceramic of cubic $\mathrm{ZrO}_2$ stabilized with $\mathrm{Y}_2\mathrm{O}_3$ at high temperatures”, TVT, 39:2 (2001), 263–273 ; High Temperature, 39:2 (2001), 244–254 |
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1993 |
| 10. |
A. Yu. Vorob'ev, A. V. Galaktionov, V. A. Petrov, V. E. Titov, A. P. Chernyshov, “The setup for determining the absorption coefficient by the method of temperature waves”, TVT, 31:4 (1993), 642–648 ; High Temperature, 31:4 (1993), 589–594 |
| 11. |
A. Yu. Vorob'ev, A. V. Galaktionov, V. E. Titov, A. P. Chernyshov, “A method of temperature waves for measuring the absorption factor”, TVT, 31:3 (1993), 455–461 ; High Temperature, 31:3 (1993), 412–417 |
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1992 |
| 12. |
G. E. Val'yano, A. Yu. Vorob'ev, V. A. Petrov, V. E. Titov, A. P. Chernyshov, “Investigation of the melting and solidification temperatures of magnesia during radiant heating with a $\mathrm{CO}_2$ laser”, TVT, 30:5 (1992), 923–929 ; High Temperature, 30:5 (1992), 761–765 |
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| 13. |
A. Yu. Vorob'ev, V. A. Petrov, V. E. Titov, A. P. Chernyshov, “Thermal radiation characteristics of magnesium oxide during its heating to temperatures corresponding to its intensive vaporization”, TVT, 30:2 (1992), 281–289 ; High Temperature, 30:2 (1992), 219–225 |
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1991 |
| 14. |
A. Yu. Vorob'ev, V. A. Petrov, V. E. Titov, A. P. Chernyshov, “Experimental study of the condensation of high-melting oxides during the surface heating of a target in air by laser radiation”, TVT, 29:5 (1991), 981–987 ; High Temperature, 29:5 (1991), 785–790 |
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