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Publications in Math-Net.Ru |
Citations |
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2024 |
1. |
Yu. V. Nikitjuk, A. F. Vasilyev, L. N. Marchenko, J. Ma, L. Wang, Y. Qin, I. Yu. Aushev, “Determination of parameters for controlled laser cleaving of silicate glasses using regression, neural network and fuzzy models”, PFMT, 2024, no. 2(59), 32–38 |
2. |
Yu. V. Nikitjuk, V. A. Emelyanov, E. B. Shershnev, J. Ma, L. Wang, I. Yu. Aushev, “Optimization of parameters for double-beam laser cleaving of tubular-shaped glass products”, PFMT, 2024, no. 1(58), 29–35 |
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2023 |
3. |
Yu. V. Nikityuk, I. Yu. Aushev, “Optimization of laser cleaving of silicate glasses with elliptical beams using fracture mechanics parameters”, PFMT, 2023, no. 4(57), 36–41 |
4. |
Yu. V. Nikitjuk, V. A. Prokhorenko, A. I. Kulyba, “Multi-criteria optimization of quartz glass laser cutting parameters using neural network simulation and genetic algorithm”, PFMT, 2023, no. 3(56), 26–31 |
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5. |
Y. V. Nikitjuk, A. F. Ivanov, I. P. Sitdikova, Z. F. Zaripova, K. L. Gorshkova, I. Y. Aushev, “Optimization of the parameters of the process of controlled thermal cracking of silicate glasses under the action of a hot airflow”, PFMT, 2023, no. 2(55), 25–30 |
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2022 |
6. |
V. A. Emelyanov, E. B. Shershnev, Yu. V. Nikitjuk, S. I. Sokolov, I. Y. Aushev, “Optimization of laser processing of diamonds”, PFMT, 2022, no. 4(53), 30–36 |
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7. |
S. A. Khakhomov, A. L. Samofalov, Yu. V. Nikitjuk, I. V. Semchenko, I. Y. Aushev, “Optimization of parameters of absorbing metamaterials based on $\Pi$-shaped elements”, PFMT, 2022, no. 3(52), 56–60 |
8. |
Yu. V. Nikitjuk, E. B. Shershnev, S. I. Sokolov, I. Y. Aushev, “Determination of the parameters of two-beam laser cleaning of quartz raw materials using artificial neural networks and the finite element method”, PFMT, 2022, no. 3(52), 37–41 |
9. |
V. A. Emelyanov, E. B. Shershnev, Yu. V. Nikitjuk, S. I. Sokolov, I. Y. Aushev, “Optimization of laser polishing of quartz glass using the method of planning computational experiments”, PFMT, 2022, no. 2(51), 26–30 |
10. |
Y. V. Nikitjuk, A. V. Semchenko, V. V. Sidsky, K. D. Danilchenko, V. A. Prohorenko, “Prediction of the properties of semiconductor Zn$_x$Mg$_y$O sol-gel layers using artificial neural networks”, PFMT, 2022, no. 1(50), 28–32 |
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2021 |
11. |
Y. V. Nikitjuk, A. N. Serdyukov, I. Y. Aushev, “Optimization of the parameters of laser splitting of quartz glass”, PFMT, 2021, no. 4(49), 21–28 |
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12. |
Yu. V. Nikitjuk, A. N. Serdyukov, V. A. Prohorenko, I. Y. Aushev, “Application of artificial neural networks and finite element method for determining the parameters of elliptic laser beam treatment of quartz sol-gel glasses”, PFMT, 2021, no. 3(48), 30–36 |
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13. |
S. V. Shalupaev, Yu. V. Nikitjuk, A. A. Sereda, I. Y. Aushev, “Modeling the process of separating multilayer heterogeneous glass structures along curved contours”, PFMT, 2021, no. 2(47), 64–68 |
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2020 |
14. |
Yu. V. Nikitjuk, “Investigation of the process of laser splitting of two-layer structures of silicon plates and glass substrates”, PFMT, 2020, no. 3(44), 44–49 |
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2019 |
15. |
S. F. Ermakov, E. B. Shershnev, Yu. V. Nikitjuk, S. I. Sokolov, “Effect of the length of the fatty acid radical in cholesterol esters on the optical properties of liquid lubricating media”, PFMT, 2019, no. 4(41), 11–16 |
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2018 |
16. |
E. B. Shershnev, Yu. V. Nikitjuk, S. I. Sokolov, S. F. Ermakov, A. E. Shershnev, “Processing of synthetic diamond structures laser radiation with a wave length of 532 nm”, PFMT, 2018, no. 4(37), 47–51 |
17. |
S. V. Shalupaev, Yu. V. Nikitjuk, A. A. Sereda, “Laser thermosplitting of sapphire by crescent-shaped beams”, PFMT, 2018, no. 3(36), 49–54 |
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2017 |
18. |
E. B. Shershnev, Y. V. Nikitjuk, S. I. Sokolov, A. E. Shershnev, “Investigation of laser macro- and microform formation of brittle nonmetallic materials by the method of full factor experiment”, PFMT, 2017, no. 4(33), 30–32 |
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19. |
E. B. Shershnev, Y. V. Nikitjuk, S. I. Sokolov, A. E. Shershnev, “Features of laser radiation with $1064$ nm, $532$ nm, and $266$ nm for the treatment of the crystals of diamond”, PFMT, 2017, no. 1(30), 22–24 |
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2015 |
20. |
E. B. Shershnev, Yu. V. Nikitjuk, S. I. Sokolov, A. E. Shershnev, “Study of laser beam polishing of quartz glass”, PFMT, 2015, no. 4(25), 45–49 |
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21. |
E. B. Shershnev, Yu. V. Nikitjuk, A. E. Shershnev, S. I. Sokolov, “Features of formation of thermoelastic fields at laser processing of diamond crystals”, PFMT, 2015, no. 1(22), 38–40 |
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2013 |
22. |
E. B. Shershnev, Yu. V. Nikitjuk, S. I. Sokolov, “Features of controlled laser thermal cleavage of quartz glass”, PFMT, 2013, no. 3(16), 39–44 |
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23. |
S. V. Shalupaev, A. N. Serdykov, Yu. V. Nikitjuk, A. A. Sereda, “Modelling of the process of the two-beam laser thermosplitting of silicate glasses within the limits of the linear fracture mechanics”, PFMT, 2013, no. 2(15), 29–34 |
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2012 |
24. |
A. N. Serdyukov, S. V. Shalupaev, Yu. V. Nikitjuk, A. A. Sereda, “Process research of laser splitting silicon wafers cutout in the plane (110)”, PFMT, 2012, no. 3(12), 37–40 |
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2011 |
25. |
Yu. V. Nikitjuk, V. F. Sholoh, “Research of the process of operated thermosplitting of fragile nonmetallic materials under the influence of the stream of hot air”, PFMT, 2011, no. 1(6), 36–39 |
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2010 |
26. |
S. V. Shalupaev, Yu. V. Nikitjuk, “Laser thermosplitting of the glass tubes”, PFMT, 2010, no. 3(4), 35–40 |
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