Соколова Инна Николаевна

 доктор физ.-мат. наук

 Федеральный исследовательский центр 

 Единая геофизическая служба Российской академии наук, 

 Обнинск, Россия

 ResearcgGate

Научные интересы: геодинамические процессы в Центральной и Южной Азии, среднесрочный прогноз сильных землетрясений, изучение пространственно-временных вариаций структуры поля поглощения S-волн, мониторинг ядерных испытаний, распознавание источников различной природы сейсмическими и инфразуковыми методами, мониторинг техногенной сейсмичности и др. 

Публикации 2010-2023

• Kopnichev Yu.F., Sokolova I.N., 2023. Mapping of S-Wave Attenuation Field Using the Coda Envelopes of Local Earthquakes and Quarry Blasts for the East Kazakhstan Region on the Data from Permanent and Temporary Seismic Stations. GEODYNAMICS & TECTONOPHYSICS 14(4). https://doi.org/10.5800/GT-2023-14-4-0713

• Kopnichev Yu.F., Sokolova I.N., 2022. Spacetime Variations in the Short-Period S Wave Attenuation Field in the Semipalatinsk Test Site Region (from Records of Nuclear and Chemical Explosions). IZVESTIYA, ATMOSPHERIC AND OCEANIC PHYSICS 58, 1418–1425. https://doi.org/10.1134/S0001433822110056
• Kopnichev Yu.F., Sokolova I.N., 2022. Mapping Heterogeneities of the Short-Period S-Wave Attenuation Field in the Lithosphere of Southwest Alaska. SEISMIC INSTRUMENTS 58, S99–S106. https://doi.org/10.3103/S0747923922070064
• Kopnichev Yu.F., Sokolova I.N., 2022. Ring-Shaped Seismicity Structures in the Region of Southwestern Alaska: A Justified Forecast of the Location and Magnitude of the Chignik Earthquake of July 29, 2021 (Mw=8.2). IZVESTIYA, ATMOSPHERIC AND OCEANIC PHYSICS 58, 713–723. https://doi.org/10.1134/S0001433822070052
• Kopnichev Yu.F., Sokolova I.N., 2022. Mapping of S-Waves Attenuation Field at East Kazakhstan and West Altay Regions by Data of Mkar Seismic Station. NNC RK BULLETIN 2, 17–22. https://doi.org/10.52676/1729-7885-2022-2-17-22
• Mikhailova N.N., Sokolova I.N., Bektyurganova B., 2021. Seismicity of Kazakhstan and Adjacent Territories in 2015. EARTHQUAKES IN NORTHERN EURASIA, р. 113–121. https://doi.org/10.35540/1818-6254.2021.24.10

• Kopnichev Y.F., Sokolova I.N., 2021. Heterogeneities of the Short-Period S-Wave Attenuation Field in the Lithosphere of SouthWestern Japan. IZVESTIYA, ATMOSPHERIC AND OCEAN PHYSICS 57, 1414–1421. http://doi.org/10.1134/S0001433821110049

• Mikhailova N.N., Sokolova I.N., Poleshko N.N., 2020. Historical and Modern Seismicity of the Semipalatinsk Test Site. IZVESTIYA, ATMOSPHERIC AND OCEANIC PHYSICS 56, 869–886. http://doi.org/10.1134/S0001433820080058
• Kopnichev Y.F., Sokolova I.N., 2019. Characteristics of the Short-Period S-Wave Attenuation Field in the Source Zone of the Strongest Tohoku Earthquake of March 11, 2011 (Mw=9.0). IZVESTIYA, ATMOSPHERIC AND OCEANIC PHYSICS 55, 804–815. https://doi.org/10.1134/S0001433819080061
• Kopnichev Y.F., Sokolova I.N., 2019. Heterogeneities of the Field of S-Wave Attenuation in the Lithosphere of the Caucasus and Their Relationship with Seismicity. IZVESTIYA, ATMOSPHERIC AND OCEANIC PHYSICS 55, 1526–1535. https://doi.org/10.1134/S0001433819100050
• Kopnichev Y.F., Sokolova I.N., 2019. Mapping S-Wave Attenuation Field of the North Tien Shan Region Using Seismogram Coda for Local Earthquakes and Quarry Blasts. IZVESTIYA, ATMOSPHERIC AND OCEANIC PHYSICS 55, 1803–1813. https://doi.org/10.1134/S0001433819110215
• Kopnichev Y.F., Sokolova I.N., 2019. Ring-Shaped Seismicity Structures in the Northern Balkan Region: Possible Preparation of Large Earthquakes. SEISMIC INSTRUMENTS 55, 78–83. https://doi.org/10.3103/S0747923919010092
• Kopnichev Y.F., Sokolova I.N., 2018. Ring-Shaped Seismicity Structures in the Cascadia Subduction Zone: Possible Upcoming Large Earthquakes. IZVESTIYA, ATMOSPHERIC AND OCEANIC PHYSICS 54, 745–752. https://doi.org/10.1134/S0001433818070046
• Kopnichev Y.F., Sokolova I.N., 2018. Ring-Shaped Seismicity Structures Forming before Large Earthquakes and the Great Earthquakes in the Western and Eastern Pacific. IZVESTIYA, ATMOSPHERIC AND OCEANIC PHYSICS 54, 848–858. https://doi.org/10.1134/S0001433818080054
• Kopnichev Y.F., Sokolova I.N., 2018. Temporal Variations of the S-Wave Attenuation Field in the Area of the Lop nor Nuclear Test Site. SEISMIC INSTRUMENTS 54, 691–694. https://doi.org/10.3103/S0747923918060063
• Kopnichev Y.F., Sokolova I.N., 2018. Space–Time Variations in the Attenuation Field of Short Period Shear Waves in the Hindu Kush Area. JOURNAL OF VOLCANOLOGY AND SEISMOLOGY 12, 424–433. https://doi.org/10.1134/S0742046318060040
• Kopnichev Y.F., Sokolova I.N., 2018. Characteristics of Seismicity in the Areas of Large Water Reservoirs and Waterfalls: The Role of Effects from Additional Load and Permanent Vibration. SEISMIC INSTRUMENTS 54, 230–238. https://doi.org/10.3103/S0747923918020081
• Kopnichev Y.F., Sokolova I.N., 2017. Ring-Shaped Seismicity Structures in the Areas of Sarez and Nurek Water Reservoirs (Tajikistan): Lithosphere Adaptation to Additional Loading. IZVESTIYA, ATMOSPHERIC AND OCEAN PHYSICS 53, 748–756. http://doi.org/10.1134/S0001433817070052
• Kopnichev Y.F., Sokolova I.N., 2017. Ring-Shaped Seismicity Structures in Southern California: Possible Preparation for Large Earthquake in the Los Angeles Basin. IZVESTIYA, ATMOSPHERIC AND OCEAN PHYSICS 53, 781–790. http://doi.org/10.1134/S0001433817080072
• Kopnichev Y.F., Sokolova I.N., 2016. High S-Wave Attenuation Anomalies and Ringlike Seismogenic Structures in the Lithosphere beneath Altai: Possible Precursors of Large Earthquakes. IZVESTIYA, ATMOSPHERIC AND OCEAN PHYSICS 52, 806–815. http://doi.org/10.1134/S0001433816080077
• Kopnichev Y.F., Sokolova I.N., 2016. The Characteristics of the Shear-Wave Attenuation Field in the Altai Lithosphere and Their Relationship to Seismicity. JOURNAL OF VOLCANOLOGY AND SEISMOLOGY 10, 332–338. http://doi.org/10.1134/S0742046316050043
• An V.A., Ovtchinnikov V.M., Kaazik P.B., Adushkin V.V., Sokolova I.N., Aleschenko I.B., Mikhailova N.N., Kim W.-Y. et al., 2015. A Digital Seismogram Archive of Nuclear Explosion Signals, Recorded at the Borovoye Geophysical Observatory, Kazakhstan, from 1966 to 1996. GEORESJ 6, 141–163. http://doi.org/10.1016/j.grj.2015.02.014
• Kopnichev Y.F., Sokolova I.N., 2014. Ring Structures of Seismicity in Central Tien Shan and Dzungaria: Possible Precursory Processes of Large Earthquakes. JOURNAL OF VOLCANOLOGY AND SEISMOLOGY 8, 194–201. http://doi.org/10.1134/S0742046314030038
• Kopnichev Y.F., Sokolova I.N., Sokolov K.N., 2013. Spatio-Temporal Variations in the Structure of the Attenuation Field of the S-Wave in the Region of Nevada Nuclear Test Site. IZVESTIYA, PHYSICS OF THE SOLID EARTH 49, 786–795. http://doi.org/10.1134/S1069351313060086
• Kopnichev Yu.F., Sokolova I.N., 2012. Heterogeneities of the Shear Wave Attenuation Field in the Lithosphere of East Tien Shan and Their Relationship with Seismicity. DOKLADY EARTH SCIENCES 442, 292–295. http://doi.org/10.1134/S1028334X12020249
• Kopnichev Yu.F., Sokolova I.N., 2011. Annular Seismicity Structures and the March 11, 2011, Earthquake (M_W=9.0) in Northeast Japan. DOKLADY EARTH SCIENCES 440, 1324–1327. http://doi.org/10.1134/S1028334X11090194
• Kopnichev Yu.F., Sokolova I.N., 2011. Heterogeneities of the Field of Short-Period Shear Wave Attenuation in the Lithosphere of Central Asia and Their Relationship with Seismicity. DOKLADY EARTH SCIENCES 437, 363–367. http://doi.org/10.1134/S1028334X11030044
• Kopnichev Yu.F., Sokolova I.N., 2010. On the Correlation between Seismicity Characteristics and S-Wave Attenuation in the Ring Structures That Appear before Large Earthquakes. JOURNAL OF VOLCANOLOGY AND SEISMOLOGY 4, 396–411. http://doi.org/10.1134/S0742046310060047
• Kopnichev Yu.F., Sokolova I.N., 2010. Heterogeneities in the Absorption Field of Short-Period S Waves in the Lithosphere of Tien Shan and Dzungaria with Their Relation to Seismicity. DOKLADY EARTH SCIENCES 433, 1119–1123. http://doi.org/10.1134/S1028334X10080271