History and Development

Создана в 1988 г. В 1988-1997 гг. кафедрой заведовал профессор Гайсенок В.А. 1997-2014 – заведующий кафедрой Слободянюк А.И., доцент, кандидат физико-математических наук.

2025:

Scientific Articles:

1. Magneto-optical anomalies and Majorana-like fermion interactions in graphene / H. Grushevskaya, G. Krylov // Nonlin. Phenom. Compl. Sys. – 2025. – Vol. 28. – P.144-154. (Q4)

2. High-sensitivity label-free electrochemical genosensors for carbon nanotube plasmon-assisted detection of somatic mutations in nucleic acids from formalin-fixed paraffin-embedded tissues / V.P. Egorova, H.V. Grushevskaya, N.G. Krylova, E.V. Vaskovtsev, A.S. Babenka, I.V. Anufreyonak, S.Yu. Smirnov, G.G. Krylov // Microchemical J. – 2025. – Vol. 208. – 112234. (Q1)

3. Bioactive metallic nanozymes-based electrochemical biosensors for biomarker detection: Progress and prospects / Runan Tan, Panpan Jiang, Nan Gao, Zhiwei Cai, Halina Grushevskaya, Yuxiang Wu,  Hanping He, Yunbin He, Gang Chang // Nano Materials Science. – 2025. – in press. (Q1)

4. Impact of Graphene Currents on Positronium Anion Beam Produced through Internal Photon-Energy Conversion in ⁶⁰Co and ¹³⁷Cs Decays / Grushevskaya G.V., Timoshchenko A.I. // Nonlinear Phenomena in Complex Systems. – 2025. - Vol. 28. - P. 397-415. (Q4)

2024:

Scientific Articles:

1. Adiabatic discrete ratchet effect of a rotor in the N-well potential of hindered rotation / I.V. Shapochkina, V.M. Rozenbaum // Nonlinear Phenomena in Complex Systems. – 2024. – Vol. 27, No. 2. – P. 199-207. (Q4)

2. Quasi-bound states for circular graphene quantum dots: subtle detail of real and complex-valued analysis / H.V. Grushevskaya, G.G. Krylov // Nonlinear Phenomena in Complex Systems. – 2024. – Vol. 27. – P. 317-324. (Q4)

3. Effect of a High-Gradient Magnetic Field on Particle Concentration Distribution in a Magnetic Fluid Seal: Rivalry of the Diffusion and Magnetophoresis / S.G. Sharyna, M.S. Krakov // Journal of Magnetism and Magnetic Materials – 2024. – Vol. 599. – 172095. (Q2)

4. Specificity of carbon nanotube accumulation and distribution in cancer cells revealed by K-means clustering and principal component analysis of Raman spectra / L. Golubewa, I. Timoshchenko, T. Kulahava // Analyst. – 2024. – Vol. 149, iss. 9. – P. 2680-2696. (Q2)

5. Квантовая частица в V-образной яме произвольной асимметрии. Броуновские моторы/ В.М. Розенбаум, И.В. Шапочкина, Л.И. Трахтенберг // Успехи физических наук. – 2024. – T. 194, № 10. – C. 1108-1117.

6. Alumina inorganic molecularly imprinted polymer modified multi-walled carbon nanotubes for uric acid detection in sweat / Wang, L., Gao, N., Cai, Z., H. Grushevskaya, Hanping He, Yunbin He, Gang Chang // Microchim. Acta. – 2024. – Vol. 191. – 247. (Q1)

7. Opportunities of using DNA nanosensors for monitoring hepatitis E virus RNA in infectious hospitals / A.S. Babenka, S.V. Zhavoronok, V.V. Davydov, I.A. Karputs, D.S. Borisovets, M.H. Kaliadka, N.N. Kolyadko, H.V. Grushevskaya, N.G. Krylova, R.F. Chakukov // Clinica Chimica Acta. – 2024. – Vol. 558. – P. 119262. (Q1)

8. Plasmon-associated DNA genotyping based on crystalline assemblies of metallic carbon nanotubes / H.V. Grushevskaya, V.P. Egorova, N.G. Krylova, A.S. Babenka, G.G. Krylov // Modern Physics Letters B. – 2024. – Vol. 38. – 2342013. (Q3)

9. High-sensitivity label-free electrochemical genosensors for carbon nanotube plasmon-assisted detection of somatic mutations in nucleic acids from formalin-fixed paraffin-embedded tissues / V.P. Egorova, H.V. Grushevskaya, N.G. Krylova, E.V. Vaskovtsev, A.S. Babenka, I.V. Anufreyonak, S.Yu. Smirnov, G.G. Krylov // Microchemical Journal. – 2024. – Vol. 208. – P. 112234. (Q1)

2023:

Scientific Articles:

1. V.P. Egorova, H.V. Grushevskaya, N.G. Krylova, E.V. Vaskovtsev, A.C. Babenka, G.G. Krylov, I.V. Anufreyonak, S.Yu. Smirnov. Plasmonic Metallic Carbon Nanotube Assemblies Enhancing Raman Optical Activity of DNA for Ultra-Sensitive Detection of KRAS-Gene Point Mutations // Nonlin. in Compl. Sys. Vol. 26, 191-298 (2023).

2. Zherelo A., Sednin A. On the Recovery of Lost Data During the Formation of Digital Twins of Heat Supply Systems // Nonlinear Phenomena in Complex Systems, vol. 26, No. 2. (2023), pp. 166-173.

3. Zherelo A. Approximate calculation of functionals on multidimensional Wiener process // Nonlinear Phenomena in Complex Systems, vol. 26, No. 4 (2023).

4. M. Rozenbaum, I.V. Shapochkina, Y.Teranishi, H.A. Witek, L.I. Trakhtenberg. Extremely asymmetric sawtooth potential in the ratchet theory // J Chin Chem Soc. 2023, v. 70, p. 209-218.

5. M. Rozenbaum, I.V. Shapochkina, Y.Teranishi, H.A. Witek, L.I. Trakhtenberg. Force-dependent motion reversal in quantum rocking ratchets // J Chin Chem Soc. 2023, v. 70, p. 421-431.

6. V. Shapochkina, V.M. Rozenbaum, V.F. Gromov, M.I. Ikim, N.G. Trusevich, L.I. Trakhtenberg. Modeling the energy characteristics of ratchets by a game-theory approach // Nonlinear Phenomena in Complex Systems, 2023, v. 26, No. 2, p. 106-115.

7. G. Krylova, G. V. Grushevskaya. Finsler–Lagrange Kinetic Model of the Structurization of a Langmuir Monolayer // Russian J. Phys. Chem. A, 2023, Vol. 97, No. 11, pp. 2510-2519;

8. V. Grushevskaya, V.P. Egorova, N.G. Krylova, A.S. Babenka, G.G. Krylov. Plasmon-associated DNA genotyping based on crystalline assemblies of metallic carbon nanotubes // Modern Physics Lett. B. - 2023. – 2342013.

9. Fedotov, A. Numerical study of free convection in a thin layer between coaxial horizontal cylinders / A. Fedotov, Y. Tsitavets, A. Elyshev // Case Studies in Thermal Engineering. – 2023. – Vol. 41 – P. 102606.

10. Husakou, O. Fedotova, R. Rusetsky, O. Khasanov, T. Smirnova, A. Fedotov, T. Apostolova, I. Babushkin, and U. Sapaev. Unified model for a nonlinear pulse propagation in composites and optimization of THz generation // Phys. Rev. A. 2023. Vol. 108, № 1. P. 013506.

11. Anton Husakou, Ihar Babushkin, Olga Fedotova, Ryhor Rusetsky, Tatsiana Smirnova, Oleg Khasanov, Alexander Fedotov, Usman Sapaev, and Tzveta Apostolova / Tunable in situ near-UV pulses by transient plasmonic resonance in nanocomposites // Opt. 2023. Vol. 31, № 22. P. 37275.

2022:

Scientific Articles:

1. On resonant scattering states in graphene circular quantum dots / Grushevskaya H.V., Krylov G.G. // Materials Physics and Mechanics. – 2022. – Vol. 49. – P. 44-50.

2. Emergence of topological defects in a bilayer of multiwalled carbon nanotubes irradiated by gamma-rays / Grushevskaya H.V., Timoshchenko A.I., Lipnevich I.V // Materials Physics and Mechanics. – 2022. – Vol. 49. – P. 145-152.

3. Numerical simulation of photoacoustic effect in one-dimensional carbon nanostructures / Oleg Romanov, Igor Timoshchenko // Nonlinear Phenomena in Complex Systems. – 2022. – Vol.25. – P.341-348.

4. Force-dependent fluxes of adiabatic classical and quantum rocking ratchets / Shapochkina I. V., Rozenbaum V. M., Trusevich N. G., Trakhtenberg L. I. // Nonlinear Phenomena in Complex Systems. – 2022. – Vol.25. – P.349-358.

5. On One Approach to Mathematical Modeling of Socio-Economic Development of Regions / Anatoly Zherelo, Sergey Chernogorskiy, Konstantin Shvetsov // Nonlinear Phenomena in Complex Systems. – 2022. – Vol. 25. – P.405-412.

6. Numerical study of free convection in a thin layer between coaxial horizontal cylinders / Alexander Fedotov, Yana Tsitavets, Andrey Elyshev // Case Studies in Thermal Engineering. – 2023. – Vol. 41. – 102606.

7. Laser-optical methods for monitoring the biomechanical properties of the anterior part of the eye / Kasianenko Ekaterina M., Yuzhakov Alexey V., Golovchenko Anastasia V., Siplivyi Vladimir I., Romanov Oleg G., Baum Olga I. // Proceedings of the SPIE. – 2022. – Vol. 12192. – 121920D.

8. Extremely asymmetric sawtooth potential in the ratchet theory / Rozenbaum Viktor M., Shapochkina Irina V., Teranishi Yoshiaki, Witek Henryk A., Trakhtenberg Leonid I. // Journal of the Chinese Chemical Society. – 2022. – in press.

9. Inertial Reciprocating Photomotor / Rozenbaum V.M., Shapochkina I.V., Trakhtenberg L.I. // JETP Letters. – 2022. – in press.

10. Optics in anisotropic inhomogeneous media and Lagrange geometry / Neagu Mircea, Krylova Nina, Ovsiyuk Elena, Red'kov Viktor // International Journal of Geometric Methods in Modern Physics. – 2022. – Vol. 19. – 2250152.

11. Study of Laser-Induced Microdeformations of the Cornea Using Phase-Sensitive Optical Coherent Elastography / Kasianenko Ekaterina M., Golovchenko Anastasia V., Siplivyi Vladimir I., Romanov Oleg G., Baum Olga I. // Journal of Biomedical Photonics and Engineering. – 2022. – Vol. 8. – 020305.

12. An Approach to Data Processing for the Smart District Heating System [О подходе к обработке данных для интеллектуальных систем централизованного теплоснабжения] / Sednin A.V., Zherelo A.V. // Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations. – 2022. – Vol. 65. – P. 240-249.

13. All-Optical Thermometry with NV and SiV Color Centers in Biocompatible Diamond Microneedles / Golubewa Lena, Padrez Yaraslau, Malykhin Sergei, Kulahava Tatsiana, Shamova Ekaterina, Timoshchenko Igor, Franckevicius Marius, Selskis Algirdas, Karpicz Renata, Obraztsov Alexander, Svirko Yuri, Kuzhir Polina // Advanced Optical Materials. – 2022. – Vol. 10. – 2200631.

14. Linear Skorokhod SDE: Evaluation of Expectations of Functionals / Egorov, A., Zherelo, A. // Nonlinear Phenomena in Complex Systems. – 2022. – Vol. 25. – P. 82-91.

15. Topologically Tuned Obliquity of Klein-Tunnelling Charged Currents Through Graphene Electrostatically-Confined p - n Junctions / Grushevskaya, H., Krylov, G. // Nonlinear Phenomena in Complex Systems. – 2022. – Vol. 25. – P. 21-40.

16. Modeling the Jump-like Diffusion Motion of a Brownian Motor by a Game- Theory Approach: Deterministic and Stochastic Models / A.D. Terets, T.Ye. Korochkova, V.A. Mashira, V.M. Rozenbaum, I.V. Shapochkina, L.I. Trakhtenberg // Nonlinear Phenomena in Complex Systems. – 2022. – Vol. 25. – P. 41-50.

17. Numerical simulation of Thermomechanical Effects in Absorbing Liquids upon Excitation by Pulsed Laser Radiation / Romanov, O., Plavskii, V., Baum, O. // Nonlinear Phenomena in Complex Systems. – 2022. – Vol. 25. – P. 51-57.

18. Polarization in quasirelativistic graphene model with topologically non-trivial charge carriers / Grushevskaya H., Krylov G. // Quantum Reports. – 2022. – Vol. 4. – P. 1-15.

19. Influence of irradiation by Swift Heavy Ions (SHI) on electronic magnetotransport in Sb δ-layer in silicon / Fedotov A.K., Gumiennik U.E., Skuratov V.A., Yurasov D.V., Fedotova J.A., Novikov A.V., Fedotov A.S., Apel P.Y. // Physica E: Low-Dimensional Systems and Nanostructures. – 2022. – Vol. 138. – 115047.

2021:

Scientific Articles:

1. Stochastic Generalization of the Epidemiological SIR Model / Obolonkin Vladimir, Zherelo Anatoly // Nonlinear Phenomena in Complex Systems. – 2021. – Vol. 24. – P. 409-414.

2. Designing a secure fail-safe cloud repository of paperworks of students and employees of educational institutions / Kochyn V.P., Zherelo A.V. // Zhurnal Belorusskogo Gosudarstvennogo Universiteta. Matematika. Informatika. – 2021. – Vol. 2021. – P. 104-108.

3. Temperature-frequency controlling the characteristics of a pulsating brownian ratchet with slightly fluctuating potential energy / Shapochkina I.V., Korochkova T.Ye., Rozenbaum V.M., Bugaev A.S., Trakhtenberg L.I. // Nonlinear Phenomena in Complex Systems. – 2021. – Vol. 24. – P. 71-83.

4. Role of mitochondrial calcium in hypochlorite induced oxidative damage of cells / Cheshchevik, V.T., Krylova, N.G., Сheshchevik, N.G., Lapshina, E.A., Semenkova, G.N., Zavodnik, I.B. // Biochimie. – 2021. – Vol. 184. – P. 104-115.

5. Light-driven Reciprocating Host–Guest Molecular Machines / Rozenbaum, V.M., Dekhtyar, M.L., Shapochkina, I.V., Trakhtenberg, L.I. // JETP Letters. – 2021. – Vol. 113. – P. 738-744.

6. Electronic properties and quasi-zero-energy states of graphene quantum dots / Grushevskaya, H.V., Krylov, G.G., Kruchinin, S.P., Vlahovic, B., Bellucci, S. // Physical Review B. – 2021. – Vol. 103. – 235102.

7. Exactly solvable model of a slightly fluctuating ratchet / Rozenbaum V.M., Korochkova T.Ye., Shapochkina I.V., Trakhtenberg L.I. // Physical Review E. – 2021. – Vol. 104. – 014133.

8. Radiation swelling and hardness of high-entropy alloys based on the TiTaNbV system irradiated with krypton ions / Ivanov I.A., Ryskulov A., Kurakhmedov A., Kozlovskiy A., Shlimas D., Zdorovets M.V., Uglov V.V., Zlotski S.V., Ke J. // Journal of Materials Science: Materials in Electronics. – 2021. – Vol. 32. – P. 27260-27267.

9. Rapid and delayed effects of single-walled carbon nanotubes in glioma cells / Golubewa L., Kulahava T., Timoshchenko I., Shuba M., Svirko Y., Kuzhir P. // Nanotechnology. – 2021. – Vol. 32. – 505103.

10. Electro deposition conditions-dependent crystal structure, morphology and electronic properties of Bi films / Fedotov A., Shendyukov V., Tsybulskaya L., Perevoznikov S., Dong M., Xue X., Feng X., Sayyed M.I., Zubar T., Trukhanov A., Tishkevich D. // Journal of Alloys and Compounds. – 2021. – Vol. 887. – 161451.

11. Electron transport and thermoelectric properties of ZnO ceramics doped with Fe / Fedotov, A.K., Pashkevich, A.V., Fedotova, J.A., Fedotov, A.S., Kołtunowicz, T.N., Zukowski, P., Ponassi, A.A., Fedotova, V.V., Svito, I.A., Budzyński, M. // Journal of Alloys and Compounds. – 2021. – Vol. 854. – 156169.

2019:

Scientific Articles:

1. V.I. Belotelov, A.N. Kalish, G.A. Knyazev, E.T.T. Nguen, O.G. Romanov, A.L. Tolstik. Optoacoustical transducer based on plasmonic nanoparticles // Nonlinear Phenomena in Complex Systems. 2019. – V.22, N1. – P.55-63.

2. George I. Zheltov, Oleg G. Romanov, Vladimir D. Bourko. Low-temperature (cavitation) dissection of biological tissues by quasi-continuous laser irradiation // Proc. SPIE V.11079 Medical Laser Applications and Laser-Tissue Interactions IX, P.110790C (22 July 2019); https://doi.org/10.1117/12.2525417

3. O.G. Romanov, G.I. Zheltov. Laser excitation of acoustic pulses in absorbing and scattering tissues: numerical solution of three-dimensional problems // Proc. SPIE V.11079 Medical Laser Applications and Laser-Tissue Interactions IX, P.110791B (22 July 2019); https://doi.org/10.1117/12.2526694

4. V. Kuvshinov, V. Interaction of quantum systems with environment in QCD / V. Kuvshinov, V. Shaparau and E. Bagashov // European Physical Journal Web of Conferences. – 2019. – Vol. 204, no. 3. – 01002.

5. Kuvshinov, V. I. Evolution of Colour in QCD and Informational Approach to Quantum Measurement / V. I. Kuvshinov and E. G. Bagashov // Nonlinear Phenomena in Complex Systems. – 2019. – Vol. 22, no. 4.

6. Rozenbaum, V.M. High-temperature ratchets driven by deterministic and stochastic fluctuations / V.M. Rozenbaum, I.V. Shapochkina, Y. Teranishi, L.I. Trakhtenberg // Phys. Rev. E. – 2019. – V. 99. – P. 012103. (журнал из перечня ВАК, Scopus, WOS, IF=2.353)

7. Shapochkina, I.V. Relaxation high-temperature ratchets / I.V. Shapochkina, V.M. Rozenbaum, S.-Y. Sheu, D.-Y. Yang, S.H. Lin, L.I. Trakhtenberg // Physica A. 2019. – V. 514(C). – P. 71-78. (журнал из перечня ВАК, Scopus, WOS, IF=2.5)

8. Rozenbaum, V.M. Symmetry of deterministic ratchets / V.M. Rozenbaum, I.V., Shapochkina, Y. Teranishi, L.I. Trakhtenberg // Phys. Rev. E. 2019.  Vol. 100, No. 2.  P. 022115. (журнал из перечня ВАК, Scopus, WOS, IF=2.353)

9. Grushevskaya, H.V. Two-Dimensional Braiding of Two-Dimensional Majorana Fermions: Manifestation in Band Structure of Graphene/ H.V. Grushevskaya, G. Krylov.   // Int. J. Nonlin. Phenom. Complex Sys. – 2019. – Vol. 22. P. 41–54 (Scopus 0.48)

10. H. V. Grushevskaya et al. Two-dimensional first-order phase transition as signature change event in contact statistical manifolds with Finsler metric / V. Balan, H. V. Grushevskaya, N. G. Krylova, G. G. Krylov, and I. V. Lipnevich. //  Applied Sciences ‒ 2019. ‒ Vol. 21. ‒ P. 11‒26. (Scopus 1.1)

11. Babenka, A. Novel approaches to parvovirus B19 diagnostics in cancer patients / A. Babenka, M. Yermalovich, I. Anufrionak, V. Egorova, I. Lipnevich, N. Krylova, H. Grushevskaya // International Journal of molecular medicine. – 2019. – V. 44, Suppl. 1. – P. S21. (Scopus, Web Science, IF=2.928)

12. Grushevskaya, H.V. Phase transitions in geometrothermodynamic model of charged generalized-NUT black holes / H.V. Grushevskaya, N.G. Krylova // Cornel Lib. arXiv:1911.06325 [gr-qc]  (2019).

13. Grushevskaya, H.V. Vortex dynamics of charge carriers in the quasirelativistic graphene model : high-energy k⃗ ⋅p⃗  approximation / H.V. Grushevskaya, G.G. Krylov // Cornel Lib. arXiv:1911.03140 [cond-mat.mes-hall] (2019).

14. H.V. Grushevskaya, N.G. Krylova. Carbon Nanotubes as A High-Performance Platform for Target Delivery of Anticancer Quinones // Current Pharmaceutical Design. V. 24, no. 43, 5207-5218 (2018). (Scopus, Web Science, IF=2.8)

15. O. Fedotova, O. Khasanov, R. Rusetski, T. Smirnova. Frequency conversion in nanocomposites // |Int. conference Advanced Laser Technologies ALT’19. Prague, Czech Republic, Sept 15-20, 2019. Book of abstracts, LMI-I-18

16. O. Khasanov, O. Fedotova, R. Rusetski, T. Smirnova, I. Guenther, O. Romanov. Frequency Conversion in Nanocomposite Materials // Int. conference Laser Physics LP’19 Ashtarak, Armenia, Sept 17-20, 2019. Book of abstracts, p.49

17. A.V. Gerelo, A.D. Egorov. Approximate Formulas of the Second Order of Accuracy for Expectation of Functionals from Solution to Linear SDE in Skorohod Sense// Nonlinear Phenomena in Complex Systems, vol. 22, no. 3 (2019), pp. 292-298

18. A.Gerelo,Y. Boldyrev,S. Chernogorskiy,K. Shvetsov,K. Kostin. A Mathematical Model of Regional Socio-Economic Development of the Russian Arctic Zone // Resources 8 (1), 45

19. Grushevskaya, H.V. Two-Dimensional Braiding of Two-Dimensional Majorana Fermions: Manifestation in Band Structure of Graphene/ H.V. Grushevskaya, G. Krylov.   // Int. J. Nonlin. Phenom. Complex Sys. – 2019. – Vol. 22. P. 41–54

20. H. V. Grushevskaya et al. Two-dimensional first-order phase transition as signature change event in contact statistical manifolds with Finsler metric / V. Balan, H. V. Grushevskaya, N. G. Krylova, G. G. Krylov, and I. V. Lipnevich. //  Applied Sciences ‒ 2019. ‒ Vol. 21. ‒ P. 11‒26.

21. Grushevskaya, H.V. Vortex dynamics of charge carriers in the quasirelativistic graphene model : high-energy k⃗ ⋅p⃗  approximation / H.V. Grushevskaya, G.G. Krylov // Cornel Lib. arXiv:1911.03140 [cond-mat.mes-hall] (2019).

22. V. Balan, H. V. Grushevskaya, N. G. Krylova, G. G. Krylov, and I. V. Lipnevich. Two-dimensional first-order phase transition as signature change event in contact statistical manifolds with Finsler metric //  Applied Sciences ‒ 2019. ‒ Vol. 21. ‒ P. 11‒26.

23. Babenka, A. Novel approaches to parvovirus B19 diagnostics in cancer patients / A. Babenka, M. Yermalovich, I. Anufrionak, V. Egorova, I. Lipnevich, N. Krylova, H. Grushevskaya // International Journal of molecular medicine. - 2019. - V. 44, Suppl. 1. - P. S21.

24. N.G. Krylova, M.S. Drobysh, G.N. Semenkova, T.A. Kulahava, S.V. Pinchuk, O.I. Shadyro. Cytotoxic and antiproliferative effects of thymoquinone on rat C6 glioma cells depend on oxidative stress // Mol. Cell. Biochem. 2019. Vol.462(1-2). P.195-206.

2018:

Scientific Articles:

1. V.M.Rozenbaum, I.V.Shapochkina, Y.Teranishi, L.I.Trakhtenberg, Symmetry of pulsating ratchets // JETP Letters. 2018.  (IP 1.363 –WoS)

2. Temperature dynamics of the electronic structure in dilute Bi-Sn alloys / A.S. Fedotov, I.A. Svito, V.G. Shepelevich, V.A. Sivakov // Physical Review B. - 2018. - Vol. 97, Iss.7. -P.075204.  DOI10.1103/PhysRevB.97.075204

3. Electric properties of composite ZnO-based ceramics doped with Fe / A.S. Fedotov, A.V. Pashkevich, L.A. Bliznyuk, J. Kasiuk, A.K. Fedotov, N.A. Basov, I.A. Svito, M. Budzyński, M. Wiertel, P. Żukowski // Przegląd Elektrotechniczny, Issn 0033-2097, R. 94 Nr 3/2018, p.197-199, 2018.

4. H.V. Grushevskaya, N.G. Krylova. Geometrothermodynamics of gravitating system with axially symmetric metric // J. of Phys. CS. ‒ 2018. ‒ Vol. 1051. ‒ P. 012013. (IF 0.48, Scopus)

5. H.V. Grushevskaya, N.G. Krylova, I.V. Lipnevich, V.P. Egorova, A.S. Babenka. Single nucleotide polymorphism genotyping using DNA sequencing on multiwalled carbon nanotubes monolayer by CNT-plasmon resonance // Int. J. Mod. Phys. B. Vol. 32 (2018) 1840033 (IF 0.66, ISI)

6. H.V. Grushevskaya, N.G. Krylova, I.V. Lipnevich, A.S. Babenka, V.P. Egorova, R.F. Chakukov. CNT-based label-free electrochemical sensing of native DNA with allele single nucleotide polymorphism // Semiconductors. (2018)  Vol. 52, No. 14, pp. 1836–1838. (IF 0.672, Scopus)

7. H.V. Grushevskaya, George Krylov, V.A. Gaisyonok. Non-Abelian Currents in Quasi-Relativistic Graphene Model : General Theory. // J. Nonlin. Phen. in Complex Sys. – 2018. – Vol. 21, no. 3. – Pp. 153 – 169 (IF 0.46, Scopus)

8. A.S. Babenka, H.V. Grushevskaya, N.G. Krylova, I.V. Lipnevich. Carbon nanotube based label-free electrochemical nanosensors for tumor associated KRAS status determination // Int. J.of Molecular Medicine. S16, 145 (2018) (IF 2.784, ISI)

9. H.V. Grushevskaya, G.G. Krylov. Increasing Spin-Orbital Coupling at Relativistic Exchange Interaction of Electron-Hole Pairs in Graphene // Semiconductors. Vol. 52. no. 14, 1879-1881 (2018) (IF 0.672, Scopus)

10. Y.K. Shtykov, O.G. Romanov. Modeling of thermomechanical action of femtosecond laser pulses on metallic nanogratings // Nonlinear Phenomena in Complex Systems. 2018, Vol.21, No.2, pp.164 – 171. (IF 0.46, Scopus)

2017:

Scientific Articles:

1. Nikolai Khokhlov, Grigoriy Knyazev, Boris Glavin, Yakov Shtykov, Oleg Romanov, Vladimir Belotelov. Interaction of surface plasmon polaritons and acoustic waves inside an acoustic cavity. // Optics Letters. Vol. 42, Issue 18, pp. 3558-3561 (2017) https://doi.org/10.1364/OL.42.003558

2. V. M. Rozenbaum, I. V. Shapochkina, S. H. Lin, L. I. Trakhtenberg. Theory of Slightly Fluctuating Ratchets // Письма в ЖЭТФ – 2017.–  105, No. 8 –  p. 521–522

3. V. M. Rozenbaum, I. V. Shapochkina, S. H. Lin, L. I. Trakhtenberg. Theory of Slightly Fluctuating Ratchets // JETP Letters – 2017.–  105, No. 8 –  p. 542–547

4. Halina V. Grushevskaya and George G. Krylov. Non-Abelian Majorana-Like Quasi-Excitation in Dirac Materials // Nonlinear Phenomena in Complex Systems. 2017. V.20. №2. P. 153-169.

5. O.G. Romanov. Optical Bistability, Switching Waves and Pattern Formation in Nonlinear Microcavities: Numerical Solution of Maxwell Equations // Nonlinear Phenomena in Complex Systems. 2017. V.20. №3. P.294-300.

6. Anatoly Zherelo. On One Approximation of a Solution of Nonlinear Stochastic Differential Equations with a Drift and Its Application // Nonlinear Phenomena in Complex Systems. 2017. V.20. №3. P.313-318.

7. O.S. Kabanova, E.A. Melnikova, O.G. Romanov, A.L. Tolstik. Linear and Nonlinear Light Beam Propagation in Liquid-Crystal Waveguide Array // Nonlinear Phenomena in Complex Systems. 2017. V.20. №4. P.319-326.

8. Halina V. Grushevskaya and George Krylov  Non-Abelian Charge Transport in Three-Flavor Gauge Semimetal Model with   Braiding Majoranas // preprint arXiv:1712.05144

2016:

Scientific Articles:

1. Rozenbaum V.M., Shapochkina I.V., Sheu S.-Y., Yang D.-Y., Lin S. H. High-temperature ratchets with sawtooth potentials, Phys. Rev. E 94, 052140-1-8 (2016)

2. Simulation of Polycrystalline Bismuth Films Transport Properties Based on Experimental Texture Identification / A.S. Fedotov, V. Shepelevich, S. Poznyak, L. Tsybulskaya, A. Mazanik, I. Svito, S. Gusakova, P. Zukowski, T. N. Koltunowicz // Materials of Chemistry and Physics– 2016. – Volume 177 – Pages 413-416.

3. V.V.Astashynski, E.E.Bildanov. Modeling the processes of destruction of the antimeteorite protection system elements // High Temperature Material Processes 2016. V.20. P.139-155.

4. Astashynski, V.V. Discharge processes in a light gas magnetoplasma launcher / V.V. Astashynski // High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes. – 2016. V. 20, is.1. – P. 33-43.

5. Microstructure of amorphous copper-carbon thin films formed by plasma-enhanced chemical vapor deposition / M.V. Astashynskaya, V.V. Astashynski, N.T. Kvasov, V.V. Uglov // High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes. – 2016. V. 20, is.2. – P. 115-126.

6. V. V. Astashinskii, M. I. Bogach, and A. V. Burachevskii Modeling the dynamics of micro- and macroparticles in a combined gas-discharge installation // Journal of Engineering Physics and Thermophysics, Vol. 89, No. 3, 2016. P.559-564

7. H. Grushevskaya, G. Krylov. Massless Majorana-Like Charged Carriers in Two-Dimensional Semimetals // Symmetry 2016, Vol. 8. - P. 60.

8. H. V. Grushevskaya, G. G. Krylov. Low frequency conductivity in monolayer graphene model with partial unfolding of Dirac bands // Int. J. Mod. Phys. - 2016. - Vol. 30. - P. 1642009.

9. O.G. Romanov, A.L. Tolstik, E. Tolstik, V. Matusevich, R. Kowarschik. Spatial-temporal dynamics of self-trapping waveguides in photopolymer absorbing layers with competing nonlinearities // Nonlinear Phenomena in Complex Systems. 2016. V.19, №3. P. 211 – 222.

10. I.F.Guenther, O.G.Romanov. Propagation and interaction of ultrashort light pulses in nonlinear media: numerical solution of Maxwell equations // Nonlinear Phenomena in Complex Systems. 2016. V.19, №2. P.135-146.

11. OI Baum, AV Bolshunov, OV Khomchik, GI Zheltov, OG Romanov, EN Sobol. Thermo mechanical processes at laser normalization of intraocular pressure // Журнал прикладной спектроскопии. 2016. V.83, №(6-16), P.692.

12. GI Zheltov, VD Burko, OG Romanov. Dissection of biological tissues under the influence of pulsed and quasi-continuos laser radiation // Журнал прикладной спектроскопии. 2016. V.83, №(6-16), P.734-735.

13. OG Romanov , AL Tolstik. Propagation and nonlinear interaction of singular light beams // Журнал прикладной спектроскопии. 2016. V.83, №(6-16), P.274-275.

14. NE Khokhlov, GA Knyazev, BA Glavin , YK Shtykov, OG Romanov, VI Belotelov. Interaction of surface plasmon polaritons and acoustic waves in hybrid metal-semiconductor structures // Журнал прикладной спектроскопии. 2016. V.83, №(6-16), P.111-112.

Other Years:

Scientific Articles:

1. V.M. Rozenbaum, Yu.A. Makhnovskii, I.V. Shapochkina, S.-Y. Sheu, D.-Y. Yang, and S.H. Lin, Diffusion of a massive particle in a periodic potential: application to adiabatic ratchets // Phys. Rev. E. 2015. V.92, P.062132. http://dx.doi.org/10.1103/PhysRevE.92.062132

2. Розенбаум В. М., Шапочкина И. В. Аналитическое представление соотношений инерционного диффузионного транспорта // Письма в ЖЭТФ. – 2015. – Т.2., вып. 4 –- с. 275 – 280.

3. D.V.Gorbach, S.A.Nazarov, O.G.Romanov, and A.L.Tolstik. Polarization transformation of singular light beams upon four- and six-wave mixing // Nonlinear Phenomena in Complex Systems. – 2015. – V.18, №2. – P.149–156. http://www.j-npcs.org/abstracts/vol2015/v18no2/v18no2p149.html

4. A.A.Kazak, E.A.Melnikova, O.G.Romanov, and A.L.Tolstik. Formation of singular and Bessel light beams using electrically controlled liquid crystal diffractive elements // Nonlinear Phenomena in Complex Systems. – 2015. – V.18, №2. – P.170–174. http://www.j-npcs.org/abstracts/vol2015/v18no2/v18no2p170.html

5. H.V. Grushevskaya, G.G. Krylov, N.G. Krylova, I.V. Lipnevich. Modeling of the behavior and statistical analysis of compressibility in the process of Longmuir monolayer structurization // Journal of Physics: Conference Series Vol. 643(2015) 012015.

6. G.G. Krylov. Two Dimensional Wave Packages Scattering on Step and Rectangular Potentials // Nonlinear Phenomena in Complex Systems. 2015, Vol.18, No.4, pp.508-514. http://www.j-npcs.org/abstracts/vol2015/v18no4/v18no4p508.html

7. H. V. Grushevskaya, G. Krylov. Semimetals with Fermi Velocity Affected by Exchange Interactions: Two Dimensional Majorana Charge Carriers // Nonlinear Phenomena in Complex Systems. Vol. 18, no. 2 (2015), pp. 266-283.

8. H. V. Grushevskaya, G. Krylov, V.A. Gaisyonok, D.W. Serow. Symmetry of Model N = 3 for Graphene with Charged Pseudo-Excitons // Nonlinear Phenomena in Complex Systems. Vol. 18, no. 1 (2015), pp. 81 - 98. http://www.j-npcs.org/abstracts/vol2015/v18no1/v18no1p81.html

9. Zherelo A.V. Approximate Calculation of Mathematical Expectations on Processes with a Drift // Nonlinear Phenomena in Complex Systems - Vol. 18, no. 2. – 2015 - pp. 207 – 214. http://www.j-npcs.org/abstracts/vol2015/v18no2/v18no2p207.html

10. Elen Tolstik, Oleg Romanov, Vladislav Matusevich, Alexei Tolstik, Richard Kowarschik. Formation of self-trapping waveguides in bulk PMMA media doped with Phenanthrenequinone // Optics Express. 2014. V.22. №1. P.3228-3233. http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-22-3-3228&origin=search

11. Rozenbaum V.M., Makhnovskii Yu.A., Shapochkina I.V., Sheu S.-Y., Yang D.-Y., Lin S.H. Inertial effects in adiabatically driven flashing ratchets // Phys. Rev. E. – 2014. – Vol. 89. – P. 052131-1– 052131-9.  http://journals.aps.org/pre/abstract/10.1103/PhysRevE.89.052131#abstract

12. V.M. Rozenbaum, I.V. Shapochkina, T.E. Korochkova Adiabatic Brownian ratchets with the inclusion of inertia // JETP Letters 2014. V. 98, P. 568-572. http://link.springer.com/article/10.1134%2FS0021364013220086

13. Maxim Belov, George Krylov. Transverse electric field control of coherent quantum transport in a nanowire model // Phys. Scr. – 2014. – V.89. P.075804. http://dx.doi.org/10.1088/0031-8949/89/7/075804

14. H.V. Grushevskaya, G. Krylov. Partially Breaking Pseudo-Dirac Band Symmetry in Graphene  // Nonlinear Phenomena in Complex Systems. – 2014. – Vol. 17, № 1.  – Р.86-96. http://www.j-npcs.org/abstracts/vol2014/v17no1/v17no1p86.html

15. N. Dadashzadeh, O.G. Romanov. Finite-Difference Time-Domain Simulation of Light Propagation in Waveguide Arrays // Nonlinear Phenomena in Complex Systems. – 2014. – V. 17, № 2. – P. 169 – 176. http://www.j-npcs.org/abstracts/vol2014/v17no2/v17no2p169.html

16. H.V. Grushevskaya, G. Krylov. Quantum Field Theory of Graphene with Dynamical Partial Symmetry Breaking // J. of Modern Phys. – 2014. – Vol. 5, № 10. – Р. 984-994. http://www.scirp.org/journal/PaperInformation.aspx?PaperID=47442#.VMDIkNKsWGM

17. М.А. Белов, Г.Г. Крылов. Полевое управление когерентным квантовым транспортом заряда в неупорядоченных нанопроволоках // ДАН Беларуси – 2014 – Т.58, №5 С. 49-53.

18. H.V. Grushevskaya, G. Krylov. Quasi-relativistic calculus of graphene monolayer minimal conductivity // Preprint arXiv:1401.6880v1 [cond-mat.mes-hall] 24 Jan 2014. http://arxiv.org/pdf/1401.6880.pdf

The Department of Computer Modeling trains students at the first stage of higher education:

• in the courses "Programming and Mathematical Modeling" within the framework of all specialties of the Faculty of Physics;

• in the courses of the specialty 1-31 04 08 "Computer Physics";

• in the courses of the specialization "Computer Modeling of Physical Processes":

  • Programming Languages

  • Numerical Methods

  • Automation of the Experiment

  • System Programming

  • Modern Interpreted Languages

  • Computational Methods in Continuum Physics

  • Computer Modeling in Optics and Laser Physics

  • Computer Modeling in Solid State Physics

  • Theory of Random Processes

  • Object-Oriented Programming

  • Computational Experiment in Physics

  • High-Performance Computing for Modeling Physical Processes and Data Analysis

  • Supercomputer Programming

  • Programming on the Microsoft .NET platform

  • Computer Modeling of Applied Physical Problems