Эпов Михаил Иванович

академик РАН, профессор, доктор технических наук

Институт нефтегазовой геологии и геофизики им. А.А. Трофимука СО РАН, Новосибирск,  Россия

ResearchGate  ORCID

Академик РАН, профессор, заместитель председателя Сибирского отделения РАН, заместитель академика-секретаря Отделения наук о Земле, до 2017 года - директор Института нефтегазовой геологии и геофизики СО РАН, заведующий кафедрой геофизики Новосибирского государственного университета.

Специалист в области геоэлектрики, теоретической геофизики, электроразведки и геофизических исследований в нефтегазовых скважинах. Автор более 450 научных публикаций, в том числе семи монографий, 12-ти патентов, лидер ведущей научной школы, его труды широко известны как в России, так и за рубежом.

Публикации 2019–2024

• Epov M.I., Glinskikh V.N., Nechaev O.V., Danilovskiy K.N., Mikhaylov I.V., 2025. Transient Electromagnetic Monitoring of the Cryolithozone: Mathematical Modeling. RUSSIAN GEOLOGY AND GEOPHYSICS 66(1), 111–117. https://doi.org/10.2113/RGG20244777
• Epov M.I., Danilovskiy K.N., Nechaev O.V., Mikhaylov I.V., 2024. Artificial Neural Network-Based Computational Algorithm of Inverse Sumudu Transform Applied to Surface Transient Electromagnetic Sounding Method. RUSSIAN GEOLOGY AND GEOPHYSICS 65(5), 663–669. https://doi.org/10.2113/RGG20234607
• Isaev A.V., Polyakov A.A., Epov M.I., 2024. Prospects for Increasing Oil Resources and Reserves in the Yenisei-Khatanga Regional Trough. DOKLADY EARTH SCIENCES 515, 430–432. https://doi.org/10.1134/S1028334X23603140
• Kutishcheva A.Y., Epov M.I., 2024. Numerical Modelling of Wave Process in Media with Initial Stresses. Proceedings of the IEEE 3rd International Conference on Problems of Informatics, Electronics and Radio Engineering. PIERE 2024. p. 980–983. https://doi.org/10.1109/PIERE62470.2024.10804896
• Epov M.I., Primakov S.A., Sukhorukova K.V., Lezhnin D.S., 2024. Geoelectric Models of Lower Cretaceous Deposits of the Latitudinal Ob Region Based on the Results of Multilayer Inversion of Electrical Logging Data. GEORESURSY 26(4), 153–162. https://doi.org/10.18599/grs.2024.4.19
• Glinskikh A.V., Epov M.I., 2024. Approximation of Spontaneous Potential Logging Diagrams by Analytical Functions for Rapid Determination of Formation Water Salinity. GEOLOGY AND MINERAL RESOURCES OF SIBERIA 4, 46–55. https://doi.org/10.20403/2078-0575-2024-4a-46-55
• Epov M.I., Mamyashev V.G., Mikhaylov I.V., Surodina I.V., Nikitenko M.N., 2024. Application of Toroidal Coils to Obtain Electrical Resistivity of Core Samples: Mathematical Modeling. GEORESURSY 26(3), 151–161. https://doi.org/10.18599/grs.2024.3.16
• Shtanko E.I., Arkhipov D.A., Epov M.I., 2024. Influence of Magnetic Polarization on Diagrams of Inductive and Electromagnetic Logs. RUSSIAN GEOLOGY AND GEOPHYSICS 65(7), 880–889. https://doi.org/10.2113/RGG20234671
• Epov M.I., Shurina E.P., Dobrolyubova D.V., Kutishcheva A.Yu., Markov S.I., Shtabel’ N.V., Shtan’ko E.I., 2023. Determination of the Effective Electrical Conductivity of a Fluid-Saturated Core from Computed Tomography Data. IZVESTIYA, PHYSICS OF THE SOLID EARTH 59, 672–681. https://doi.org/10.1134/S106935132305004X
• Epov M.I., Nechaev O.V., Glinskikh V.N., 2023. Numerical Inversion of the Sumudu Integral Transform in the Simulation of Electromagnetic Sounding of the Earth’s Interior. RUSSIAN GEOLOGY AND GEOPHYSICS 64(7), 860–869. https://doi.org/10.2113/RGG20234537
• Nechayev O.V., Epov M.I., Glinskikh V.N., 2023. A Unified Approach to Three-Dimensional Modeling of the Logging Process by Galvanic and Induction Probes in Anisotropic Media. RUSSIAN JOURNAL OF GEOPHYSICAL TECHNOLOGIES 3, 25–33. https://doi.org/10.18303/2619-1563-2022-3-25
• Epov M.I., Moskaev I.A., Nechaev O.V., Glinskikh V.N., 2023. Effect of Tilted Uniaxial Electrical Anisotropy Parameters on Signals of Electric and Electromagnetic Logging Soundings according to Results of Numerical Simulation. RUSSIAN GEOLOGY AND GEOPHYSICS 64(6), 735–742. https://doi.org/10.2113/RGG20224506
• Epov M.I., Nechaev O.V., Glinskikh V.N., Danilovskiy K.N., 2022. Pulsed Electromagnetic Sounding of the Bazhenov Formation: High-Performance Computing to Justify a New Geophysical Technology. RUSSIAN GEOLOGY AND GEOPHYSICS 64(1), 102–108. https://doi.org/10.2113/RGG20214448
• Zligostev I.N., Epov M.I., Savluk A.V., 2022. On the Measurement of the Magnetic Induction Vector with the Use of a Three-Component Magnetometer Placed on a Mobile Carrier. RUSSIAN JOURNAL OF GEOPHYSICAL TECHNOLOGIES 4, 47–56. https://doi.org/10.18303/2619-1563-2021-4-47
• Epov M.I., Glinskikh V.N., Nikitenko M.N., Sukhorukova K.V., Petrov A.M., Gornostalev D.I., Mikhaylov I.V., 2022. Cross-Well Pulsed Electromagnetic Exploration of the Bazhenov Formation from Lower Cretaceous and Upper Jurassic Reservoirs. GEOLOGY AND MINERAL RESOURCES OF SIBERIA 73–79. https://doi.org/10.20403/2078-0575-2022-1-73-79
• Epov M.I., Glinskikh V.N., Nikitenko M.N., Lapkovskaya A.A., Leonenko A.R., Petrov A.M., Sukhorukova K.V., Gornostalev D.I., 2021. Modern Algorithms and Software for Interpretation of Resistivity Logging Data. GEODYNAMICS & TECTONOPHYSICS 12(3S), 669–682. https://doi.org/10.5800/GT-2021-12-3s-0546
• Zlygostev I.N., Epov M.I., Savluk A.V., Glinskikh V.N., 2021. Multichannel Information-Measuring System on an Unmanned Aircraft for Measuring the Total Induction Vector of the Earth’s Magnetic Field. RUSSIAN JOURNAL OF GEOPHYSICAL TECHNOLOGIES 4, 50–57. https://doi.org/10.18303/2619-1563-2020-4-50
• Gapeev D.N., Epov M.I., Tishkin A.A., Firsov A.P., Frolov Y.V., Ostanin V.A., Kolesov A.S., Maletin Yu.Yu., 2021. Spline Approximation of Unequal Aeromagnetic Survey Data with the Use of UAV on Spatially Inhomogeneous Networks When Solving Problems of Archaeological Exploration. RUSSIAN JOURNAL OF GEOPHYSICAL TECHNOLOGIES 3, 8–30. https://doi.org/10.18303/2619-1563-2020-3-18
• Nikitenko M.N., Epov M.I., Glinskikh V.N., Sukhorukova K.V., Gornostalev D.I., Mikhaylov I.V., 2021. Transient Electromagnetic Sounding of Bazhenov Formation from Lower Cretaceous and Jurassic Reservoirs Penetrated by Deviated and Horizontal Wells. GEOMODEL 2021, р. 1–6. https://doi.org/10.3997/2214-4609.202157059
• Epov M.I., Glinskikh V.N., Nikitenko M.N., Sukhorukova K.V., Gornostalev D.I., Mikhailov I.V., 2021. New Method of Impulsive Electromagnetic Logging Sounding: Mapping of the Bazhenovskaya Formation from Jurassic Reservoirs Penetrated by Inclined-Horizontal Wells. GEOLOGY AND MINERAL RESOURCES OF SIBERIA 31–39. https://doi.org/10.20403/2078-0575-2021-3-31-39
• Epov M.I., Glinskikh V.N., Mikhaylov I.V., Nikitenko M.N., Surodina, I.V., 2021. Scientific Substantiation of New Logging Equipment: Electromagnetic Tool with Toroidal Coils. Novosibirsk, p. 267–269. https://doi.org/10.25205/978-5-4437-1248-2-267-269
• Epov M.I., Sukhorukova K.V., Nechaev O.V., Petrov A.M., Rabinovich M., Weston H., Tyurin E., Wang G.L., Abubakar A., Claverie M., 2020. Comparison of the Russian and Western Resistivity Logs in Typical Western Siberian Reservoir Environments: A Numerical Study. PETROPHYSICS 61(1), 38–71. http://dx.doi.org/10.30632/PJV61N1-2020a1
• Epov M.I., Shurina E.P., Itkina N.B., Kutishcheva A.Y., Markov S.I., 2019. Finite Element Modeling of a Multi-Physics Poro-Elastic Problem in Multiscale Media. JOURNAL OF COMPUTATIONAL AND APPLIED MATHEMATICS 352, 1–22. http://dx.doi.org/10.1016/j.cam.2018.08.039
• Antonov E.Y., Mogilatov V.S., Epov M.I., 2019. Effect of Transmitter Current Waveform on Transient Electromagnetic Responses. RUSSIAN GEOLOGY AND GEOPHYSICS 60(4), 492–499. http://dx.doi.org/10.15372/RGG2019027
• Cheremisin A.A., Vasil'ev Yu.V., Olenchenko V.V., Epov M.I.,Toib R.E., Shnipov I.S., Shirokov S.V., Boltintsev V.B., 2018. Potentialities of Ultrawideband Gpr in Low-Resistivity Geoenvironments. RUSSIAN GEOLOGY AND GEOPHYSICS 59(2), 206–215. http://dx.doi.org/10.1016/j.rgg.2018.01.017