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Publications in Math-Net.Ru |
Citations |
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2025 |
| 1. |
V. I. Smirnov, V. A. Sergeev, A. A. Gavrikov, “Особенности измерения теплового сопротивления микросборки мощных нитрид-галлиевых НЕМТ с кремниевым MOSFET, включенных по каскодной схеме”, Optics and Spectroscopy, 133:10 (2025), 1028–1031  |
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2024 |
| 2. |
S. V. Vasin, V. A. Sergeev, “The effect of bending on the electrical conductivity of polymer nanocomposite films with single-walled carbon nanotubes”, Fizika Tverdogo Tela, 66:12 (2024), 2102–2104  |
| 3. |
I. V. Frolov, V. A. Sergeev, O. A. Radaev, A. A. Kazankov, “Investigation of the relationship between the defects density in light-emitting InGaN/GaN heterostructures and the parameters of the P-I characteristic”, Optics and Spectroscopy, 132:11 (2024), 1138–1141 |
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2023 |
| 4. |
S. V. Vasin, V. A. Sergeev, “Modeling and calculation of the distribution of the minimum distance between carbon nanotubes with different degrees of orientation in a polymer matrix”, Fizika Tverdogo Tela, 65:12 (2023), 2104–2106 |
| 5. |
V. A. Sergeev, I. V. Frolov, A. A. Kazankov, “Estimation of the inhomogeneity of the current density and temperature distribution in the structures of bipolar and heterobipolar high-frequency and ultrahigh-frequency transistors by recombination emission”, Optics and Spectroscopy, 131:11 (2023), 1461–1463 |
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2021 |
| 6. |
I. V. Frolov, V. A. Sergeev, O. A. Radaev, “A method for measuring the internal quantum efficiency of InGaN LED emission”, Zhurnal Tekhnicheskoi Fiziki, 91:8 (2021), 1264–1267 ; Tech. Phys., 66:10 (2021), 1107–1110  |
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2020 |
| 7. |
S. V. Vasin, M. S. Efimov, V. A. Sergeev, “Characteristics of current transfer in PVA films with dispersed multiwall carbon nanotubes on silicon substrates”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 46:12 (2020), 26–29 ; Tech. Phys. Lett., 46:6 (2020), 595–598 |
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| 8. |
V. V. Kozhevnikov, M. Yu. Leontiev, V. V. Prokhod'ko, V. A. Sergeev, A. N. Fomin, “Technology of the intelligent system design (synthesis) to robot control based on the mathematical model of cognitive digital automation”, Uchenyye zapiski UlGU. Seriya "Matematika i informatsionnyye tekhnologii", 2020, no. 1, 58–71 |
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2019 |
| 9. |
V. A. Sergeev, E. S. Klimov, I. V. Frolov, “Effect of functionalization on the conductivity and noise characteristics of arrays of multiwall carbon nanotubes”, Zhurnal Tekhnicheskoi Fiziki, 89:8 (2019), 1223–1228 ; Tech. Phys., 64:8 (2019), 1155–1160 |
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| 10. |
V. V. Kozhevnikov, M. Yu. Leontiev, V. V. Prokhod'ko, V. A. Sergeev, A. N. Fomin, “Principal directions of developing the design methods for intelligent systems to control robots”, Uchenyye zapiski UlGU. Seriya "Matematika i informatsionnyye tekhnologii", 2019, no. 2, 36–53 |
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| 11. |
V. V. Kozhevnikov, M. Yu. Leontiev, V. V. Prokhod'ko, V. A. Sergeev, E. S. Yazykova, “Prediction of solutions on the basis of the mathematical model of Cognitive Digital Automata”, Uchenyye zapiski UlGU. Seriya "Matematika i informatsionnyye tekhnologii", 2019, no. 1, 52–64 |
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2017 |
| 12. |
V. A. Sergeev, I. V. Frolov, O. A. Radaev, “The relationship between the defectness of emitting nanoheterostructures of green InGaN/GaN LEDs and their threshold current values”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 43:4 (2017), 89–93 ; Tech. Phys. Lett., 43:2 (2017), 224–226 |
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2016 |
| 13. |
V. A. Sergeev, A. M. Hodakov, “Dynamic thermoelectric model of a light-emitting structure with a current spreading layer”, Fizika i Tekhnika Poluprovodnikov, 50:8 (2016), 1100–1105 ; Semiconductors, 50:8 (2016), 1079–1084 |
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2012 |
| 14. |
V. A. Sergeev, A. M. Hodakov, “Nonlinear thermal model of a heterojunction-based light-emitting diode”, Fizika i Tekhnika Poluprovodnikov, 46:5 (2012), 691–694 ; Semiconductors, 46:5 (2012), 673–677 |
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