Mgr. Bublikov Konstantin

Koroteev, M., Romanova, E., Korovin, D., Shevtsov, V., Feklin, V., Nikitin, P., Makrushin, S., and Bublikov, K.V.: Optimization of food industry production using the Monte Carlo simulation method: a case study of a meat processing plant, Informatics 9 (2022) 5.

1. Tobisova, A.: Sustainab. 14 (2022) 8785.
2. Senova, A.: Sustainab. 15 (2023) 1006.
3. E-Fatima, K.: Sustainab. 15 (2023) 7236.
4. Fabianova, J.: Applied Sci 13 (2023) 6103.

Bublikov, K., Tóbik, J., Sadovnikov, A.V., and Mruczkiewicz, M.: Vortex gyrotropic mode in curved nanodots, J. Magnetism Magnetic Mater. 537 (2021) 168105.

1. Finizio, S.: Nano Lett. 22 (2022) 1971.
#     2. Kalmykova, T.: IEEE 2nd Ukrain. Microwave Week – UkrMW 2022, pp. 88-91.
3. Jalil, W.B.F.: J. Phys. D 56 (2023) 385001.

Korchagin, S., Pleshakova, E., Alexandrova, I., Dolgov, V., Dogadina, E., Serdechnyy, D., and Bublikov, K.: Mathematical modeling of electrical conductivity of anisotropic nanocomposite with periodic structure, Mathematics 9 (2021) 2948.

1. Osipov, A.: IEEE Access 10 (2022) 28885.
2. Zheng, X.: Acta Mechanica 234 (2023) 3459.

Korchagin, S.A., Gataullin, S.T., Osipov, A.V., Smirnov, M.V., Suvorov, S.V., Serdechnyi, D.V., and Bublikov, K.V.: Development of an optimal algorithm for detecting damaged and diseased potato tubers moving along a conveyor belt using computer vision systems, Agronomy 11(2021) 1980.

1. Nasirahmadi, A.: Agriculture-Basel 11 (2021) no. 11.
2. Zhang, Q.: Symmetry-Basel 14 (2022) 531.
3. Xu, L.X.: Molecular Breed. 43 (2023) 25.
4. Yu, F.: Remote Sens. 15 (2023) 2988.
5. Gul, Z.: Sensors 23 (2023) 5407.

Labintsev, A., Khasanshin, I., Balashov, D., Bocharov, M., and Bublikov, K.:
Recognition punches in karate using acceleration sensors and convolution neural networks, IEEE Access 9 (2021) 138106-138119.

1. Echeverria, J.: Sensors 21 (2021) no. 24.

Sadovnikov, A.V., Beginin, E.N., Bublikov, K.V., Grishin, S.V., Sheshukova, S.E., Sharaevskii, Y.P., and Nikitov, S.A.:  Brillouin light scattering study of transverse mode coupling in confined yttrium iron garnet/barium strontium titanate multiferroic, J. Applied Phys. 118 (2015) 203906. (Not IEE SAS)

1. Hong, J.T.: Current Applied Phys. 18 (2018) 642.
2. Zhou, D.S.: J. Mater. Sci 53 (2018) 10240
3. Zhao, R.Z.:Applied Phys. Lett. 113 (2018) 062405.
4. Heussner, F.: Phys. Status Solidi-RRL 12 (2018) 1800409.
5. Wei, Y.: IEEE Access 7 (2019) 115574.
6. Mouadili, A.: AIP Adv. 9 (2019) 035011.
7. Milam-Guerrero, J.: J. Solid State Chem. 274 (2019) 1.
8. Hou, H.Y.: Crystals 9 (2019) 357.
9. Rebecca, T.E.: Europ. Phys. J. B 92 (2019) 188
10. Noack, T.B.: Phys. Status Solidi B 256 (2019) 1900121.
11. Purnama, I.: Sci Rep. 9 (2019) 13226.
12. Vivek, T.: IEEE Trans.Magnet. 55 (2019) 7205207.
13. Zhou, S.: J. Magnet. Magnetic Mater. 493 (2020) 165740.
14. Wu, CY.: Crystals 10 (2020) 187
15. Dong, Q.: Optics Laser Technol. 124 (2020) 105962
16. Mouadili, A.J.: Experiment. Theoret. Phys. 130 (2020) 859.
17. Song, WJ.: Phys. Status Solidi-RRL 14 (2020) 2000118.
18. Deng, J.X.: J. Phys. D 53 (2020) 315001.
19. Stognij, A.I.: Inorg. Mater. 56 (2020) 847.
20. Sharko, S.A.: Ceramics Inter. 46 (2020) 22049.
21. Li, Z.D.: J. Magnet. Magnetic Mater. 512 (2020) 166981.
22. Sharko, S.A.: J. Magnet. Magnetic Mater. 514 (2020) 167099.
23. Li, QY.: Chinese Phys. B 30 (2021) 017504.
24. Milam-Guerrero, J.: Inorg. Chem. 60 (2021) 6249.
25. Vivek, T.: Chinese J. Phys. 78 (2022) 401.

Sadovnikov, A.V., Bublikov, K.V., Beginin, E.N., Sheshukova, S.E.a, Sharaevskii, Y.P., and Nikitov, S.A.: Nonreciprocal propagation of hybrid electromagnetic waves in a layered ferrite–ferroelectric structure with a finite width, JETP Lett. 102 (2015) 142-147. (Not IEE SAS)

1. Zakeri, K.: J. Phys.-Cond. Matt. 32 (2020) 363001.
2. Yusupov, R.V.: JETP Lett. 115 (2022) 167.
3. Kuzmann, E.: Nanomater. 12 (2022) 1962.
4. Zhou, Z.Z.: Physica Scripta 97 (2022) 095502.
5. Sheremetyeva, O.: Mathematics 11 (2023) 2297.
6. Zhang, Q.: Symmetry-Basel 15 (2023) 518.
7. Liu, Y.: Materials 15 (2022) 8267.

Sadovnikov, A.V. and Bublikov, K.V.: Electrodynamical properties and modes of finite-width planar ferrite waveguide, J. Phys.: Conf. Ser. 572 (2014) 012064. (Not IEE SAS)

1. Zamir, B.: J. Nonlinear Optic. Phys.Mater. 26 (2017) 1750028.
2. Ali, R.: Results Phys. 8 (2018) 243.
3. Alkanhal, M.A.S.: Optik 229 (2021) 166255.

Sadovnikov, A.V., Bublikov, K.V., Beginin, E.N., and Nikitov, S.A.: The electrodynamic characteristics of a finite-width metal/dielectric/ferroelectric/dielectric/metal layer structure, J. Comm. Technol. Electron. 59 (2014) 914-919. (Not IEE SAS)

1. Ustinova, I.A.: J. Phys.: Conf. Ser. 661 (2015) 012050.
2. Wei, Y.: IEEE Access 7 (2019) 115574.
3. Hou, H.Y.: Crystals 9 (2019) 357.
4. Purnama, I.: Sci Rep. 9 (2019) 13226.
5. Vivek, T.: IEEE Trans.Magnet. 55 (2019) 7205207.
6. Che, P.: Nature Comm. 11 (2020) 1445.
7. Mouadili, A.J.: Experiment. Theoret. Phys. 130 (2020) 859.
8. Deng, J.X.: J. Phys. D 53 (2020) 315001.
9. Crisan, O.: Nanomater. 10 (2020) 1618.
10. Li, Z.D.: J. Magnet. Magnetic Mater. 512 (2020) 166981.
11. Li, Q.Y.: Chinese Phys. B 30 (2021) 017504.
12. Stancu, V.: Materials 14 (2021) 3696.
13. Ren, Y.H.: Optics Laser Technol. 134 (2021) 106616.
14. Popczyk, O.: Materials 14 (2021) 4178.
15. Zhao, C.S.: Phys. Rev. A 105 (2022) 023709.
16. Rudzinski, W.: J. Magnet. Magnetic Mater. 546 (2022) 168687.
17. Bashir, A.I.: Optics Laser Technol. 149 (2022) 107915.
18. Yang, S.: Comp. Struct. 290 (2022) 115536.
19. Li, Y.J.: J. Phys. D 55 (2022) 245001.