Kurmanov Yergali
Associate professor
The Department of «Smart technologies in engineering»
PhD
2013 – 2020 Junior researcher, RSE "Institute of Mathematics and Mathematical Modeling" of the Ministry of Education and Science of the Republic of Kazakhstan.
2012-2014 – GF project “Wave diffraction in elastic, thermoelastic and multicomponent media”.
2013-2015 – GF project “Modelling of dynamics of breed array under seismic influence”.
2015-2017 – GF project “Wave dynamics of elastic, thermoplastic and two component media”.
2018-2020 – GF project “Boundary value problems of the dynamics of deformable solid and electromagnetic media and their solution”.
2018 – 2020 Researcher, RSE Institute of Mechanics and Mechanical Engineering after Academician W.A. Dzholdasbekov" the CS MES RK.
2018-2020 – GF project “Mathematical and computer modeling of rock mass dynamics under seismic effects”.
2019 – present Senior Lecturer, Faculty of Physics and Technology, Department of Solid state Physics and Nonlinear Physics, al-Farabi Kazakh National University, Almaty,
From 2023 acting Associate Professor at KazNU named after. al-Farabi.
2023-2025 – GF project “ AP19575366 Investigation of the physical properties of the accretion disk around black holes and their mimickers”
2023-2025 – GF project “ AP19680128 Motions of test particles and photons in the gravitational field of dilatonic black holes”.
Training
2013 - Paris Observatory (Observatoire de Paris-Meudon), Paris, France.
2018 - University of Bologna, Bologna, Italy.
2021 - University of Camerino, Camerino, Italy.
2022 - Nazarbayev University, Astana, Kazakhstan.
2023 - University of Camerino, Camerino, Italy.
Awards:
2022 - “ State Research Fellowship for Young and Talented Scientists” by the Ministry of Science and Higher Education of the Republic of Kazakhstan
2022 - “ Best Young Scientist”. The fellowship was established by the rector of KazNU.
2021 - 2nd place in the republican competition for the best scientific work of students in the field of natural and technical sciences, awarded by the Ministry of Education and Science of the Republic of Kazakhstan (MES RK).
2019 - Award for the best talk in the XV International scientific conference of students, undergraduates, and Young Scientists "Lomonosov 2019". - Nur-Sultan, Kazakhstan.
2011 - 2nd degree diploma at the International Conference of Students and Young Scientists “Farabi alemi”.
Today Kurmanov Ye.B. works with leading foreign scientists: Luongo Orlando (Pisa, Italy), Daniele Malafarina (Nazarbayev University), Quevedo Hernando (Mexico, Mexico), Marco Muccino (Frascati, Italy), Aldabergenov Ermek (Shanghai, Kazakhstan), Panamarev Taras (Oxford, England). His research interests include general relativity, approximate and exact solutions of Einstein's equations, relativistic astrophysics, mathematical physics, solid mechanics, and physics of compact objects. Participated and made oral presentations at international conferences held in different countries of the world, such as Italy, France, etc.
2008 - 2012 Al-Farabi Kazakh National University. Bachelor`s degree in "6B05303-Technical Physics"..
2012 - 2014 Al-Farabi Kazakh National University. Master`s degree in specialty "6М061100 – Astronomy".
2018 - 2021 Al-Farabi Kazakh National University. Ph.D. «6D061100 – Физика және астрономия» мамандығы бойынша.
2013 – 2020 Junior researcher, RSE "Institute of Mathematics and Mathematical Modeling" of the Ministry of Education and Science of the Republic of Kazakhstan.
2012-2014 – GF project “Wave diffraction in elastic, thermoelastic and multicomponent media”.
2013-2015 – GF project “Modelling of dynamics of breed array under seismic influence”.
2015-2017 – GF project “Wave dynamics of elastic, thermoplastic and two component media”.
2018-2020 – GF project “Boundary value problems of the dynamics of deformable solid and electromagnetic media and their solution”.
2018 – 2020 Researcher, RSE Institute of Mechanics and Mechanical Engineering after Academician W.A. Dzholdasbekov" the CS MES RK.
2018-2020 – GF project “Mathematical and computer modeling of rock mass dynamics under seismic effects”.
Project Leader: 2023-2025 – GF project “ AP19575366 Investigation of the physical properties of the accretion disk around black holes and their mimickers”
2023-2025 – GF project “ AP19680128 Motions of test particles and photons in the gravitational field of dilatonic black holes”.
Publications
Boshkayev K., Konysbayev T., Kurmanov Ye., Luongo O. and Malafarina D. Accretion Disk Luminosity for Black Holes Surrounded by Dark Matter with Tangential Pressure // The Astrophysical Journal. - 2022. - Vol. 936. - P. 1-7. Scopus, WoS, Q1, IF: 5.521, SJR: 1.901; Percentile 84%.
E. Kurmanov, K. Boshkayev, R. Giambo, T. Konysbayev, O. Luongo, D. Malafarina and H. Quevedo Accretion disk luminosity for black holes surrounded by dark matter with anisotropic pressure // The Astrophysical Journal. - 2022. - Vol. 925. - P. 1-8. Scopus, WoS, Q1, IF: 5.521, SJR: 1.901; Percentile 84%.
K. Boshkayev, T. Konysbayev, E. Kurmanov, O. Luongo, D. Malafarina, K. Mutalipova and G. Zhumakhanova Effects of non-vanishing dark matter pressure in the Milky Way galaxy // Monthly Notices of the Royal Astronomical Society. - 2021. - Vol. 508. - P. 1543-1554. Scopus, WoS, Q1, IF: 5.235, SJR: 1.678; Percentile 86%.
K. Boshkayev, T. Konysbayev, E. Kurmanov, O. Luongo, D. Malafarina, and H. Quevedo Luminosity of accretion disks in compact objects with quadrupole // Physical Review D. – 2021. – Vol. 104. – P. 084009. Scopus, WoS, Q1, IF: 5.407. SJR: 1.677, Percentile 91%.
Boshkayev K. Konysbayev T., Kurmanov E., Luongo O., Muccino M., Quevedo H., Taukenova A. and Zhumakhanova G. Motion of stars near the galactic center // International Journal of Mathematics and Physics. - 2021. - Vol. 12. - P. 79-86. Scopus, WoS, Q4.
K. Boshkayev, T. Konysbayev, E. Kurmanov, O. Luongo and M. Muccino Imprint of pressure on characteristic dark matter profiles: the case of ESO0140040 // Galaxies. - 2020. - Vol.74. - P.1-13. Scopus, WoS, Q3, SJR: 0.646, IF: 1.129, Percentile 55%.
L. Alexeyeva., E. Kurmanov Fundamental and generalized solutions of the equations of motion of a two-component Biot medium and their properties // Differential Equations. - 2020. - Vol. 56. - P. 438-446. Scopus, WoS, Q3, Percentile: 48, SJR:0.542, IF: 0.837.
L. Chechin, E. Kurmanov, T. Konysbayev Geometrical Optics in a Universe with Dominance of Dark Matter // Russian Physics Journal. - 2020. - V.63. - P. 58-63. Scopus,WoS,Q4, SJR:0.317, IF: 0.664; Percentile: 34%.
K. Boshkayev, T. Konysbayev, E. Kurmanov, M. Muccino Dark matter properties in galaxy U5750 // News of the National Academy of Sciences of the Republic of Kazakhstan physico-mathematical series. - 2020. - Vol. 6. - P.81-90.
K. Boshkayev, T. Konysbayev, E. Kurmanov, M. Muccino, G. Zhumakhanova Physical properties of dark matter in galaxy U11454 // Physical sciences and technology. - 2020. - Vol. 7. – P.11-20.
L. Alexeyeva., E. Kurmanov Fundamental and generalized solutions of motion equations of two components Biot's medium by stationary vibrations // N e w s of the National Academy of Sciences of the Republic of Kazakhstan physico-mathematical series. - 2020. - Vol. 1. - P. 1-10.
L. Chechin, E. Kurmanov On a new direction in the theory of gravitational lensing // Recent contributions to physics. - 2019. - T. 68. - C. 13-19
G. Zakiryanova, E. Kurmanov Dynamics of the two-component medium Bio under subsonic transport loads // Vestnik KazdorNII. - 2017. - T. 1. - P.101-106
L. Alexeyeva., E. Kurmanov Fourier transform of fundamental solutions for the motion equations of two component Biot's media // AIP Conf. Proc. 1880, 060021-1–060021-6; doi: 10.1063/1.5000675 Published by AIP Publishing.978-0-7354-1560, Published by the American Institute of Physics (Scopus). 2017
L. Alekseeva, E. Kurmanov Fundamental and generalized solutions of equations of motion of two-component medium M.Bio 1. Fourier transformation of fundamental solutions and their regularization // Mathematical magazine. – 2017. – Volume 17. – No. 2. - S. 13-30
G. Avhunbayeva, E. Sabaev and E. Kurmanov K. Theory of two-parameter gravitational lenses // Vestnik KazNU. - 2014. - No. 1(48).
E. Kurmanov, T. Konysbaev, N. Sayib and A. Bazarbaeva Luminosity of an accretion disk around a static black hole surrounded by dark matter with anisotropic pressure // Proceedings of the international scientific conference of students and young scientists "World of Farabi", Almaty, Kazakhstan. - 2022.
E. Kurmanov, T. Konysbaev, K. Mutalipova, G. Zhumakhanova, M. Isa and A. Tuzel Properties of dark matter with pressure different from zero in the Milky Way Galaxy // Proceedings of the international scientific conference of students and young scientists "Farabi World", Almaty, Kazakhstan. – 2021. – C. 200.
S. Arynbek, T. Konysbaev, E. Kurmanov The luminosity of the accretion disk for small objects // Proceedings of the international scientific conference of students and young scientists "World of Farabi", Almaty, Kazakhstan. - 2021. - C. 18.
G. Zhumakhanova, K. Mutalipova, E. Kurmanov, T. Konysbaev, A. Proceedings of the international scientific conference of students and young scientists entitled "The world of Farabi", Almaty, Kazakhstan. – 2021. – C. 20.
K. Mutalipova, G. Zhumakhanova, E. Kurmanov, T. Konysbayev, A. Tuzel Structure is dark in complex galaxies
Electrical and electronics
The purpose of the discipline is to study electrical circuits and transients, four-pole circuits, electrical filters and circuits with distributed parameters, as well as methods for calculating nonlinear circuits at constant currents. The acquired skills will allow the student to study the steady-state modes in linear electrical circuits with distributed parameters, apply the theory of four-poles, electric filters of the "K" type, calculate and design electronic devices, characteristics of basic semiconductor devices, amplifiers.
Theory of electrical communication
The discipline studies the basic laws of information transmission in telecommunication systems, signal conversion in typical functional units of communication systems, the basic laws and methods for analyzing potential noise immunity and throughput of communication channels, basic information theory and non-redundant message coding, basic models of telecommunication channels, principles of multi-channel communication and distribution information, issues of evaluating the effectiveness of communication systems and the fundamentals of noise-resistant coding and its application in communication systems.
Data digital handling
The purpose of the discipline is the formation of practical skills at the student on the conversion of signals into digital form, processing of digital signals, the use of digital processing of signals in information and entertainment complexes. As a result of training, the student has the means of computer modeling of digital signal processing installations, developing software applications for the implementation of the digital signal processing system.
Control and measuring devices
The purpose of the discipline is to form students ' knowledge on setting up, setting up and experimental testing of devices and automation systems. As a result of studying the discipline, the student will get theoretical and practical skills on the principles of building control and measuring devices used in various enterprises to measure and control temperature, pressure and pressure difference, flow, level, including intelligent sensors, their nomenclature and switching schemes, to make a choice of control and measuring devices for monitoring and controlling technological processes of various enterprises. The student can use this knowledge in the future when designing and operating automated control systems.
Intellectualization of Electrical Power Engineering
The purpose of the discipline is to provide students with a set of orienting knowledge on the basic concepts of intelligent information systems, as well as practical skills necessary for the implementation and practical use of such systems. As a result of studying the discipline, the student will know and be able to find information, process and transmit any type of data in a variety of formats. The student can use the acquired knowledge in the future in the research, design and operation of electric power systems.
| Понедельник | Вторник | Среда | Четверг | Пятница | Суббота | |
|---|---|---|---|---|---|---|
| 08:30 09:20 |
Интеллектуализация электроэнергетических систем, Лекции (Учебный корпус №1, 45 (И)) |
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| 09:25 10:15 |
Интеллектуализация электроэнергетических систем, Лекции (Учебный корпус №1, 45 (И)) |
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| 10:20 11:10 |
Теория электрической связи, Лекции (онлайн занятие) |
Интеллектуализация электроэнергетических систем, Практики (онлайн занятие) |
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| 11:15 12:05 |
Интеллектуализация электроэнергетических систем, Лекции (онлайн занятие) |
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| 12:10 13:00 |
Теория электрической связи, Лабораторные работы (онлайн занятие) |
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| 13:30 14:20 |
Теория электрической связи, Практики (онлайн занятие) |
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| 14:25 15:15 |
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| 15:20 16:10 |
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| 16:15 17:05 |
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| 17:10 18:00 |
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| 18:10 19:00 |
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| 19:10 20:00 |