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Пулинец Сергей Александрович
Публикаций: 202 (202)
в Web of Science: 1 (1)
Цитированных статей: 124
Цитирований: 4576

Статистика просмотров:
Эта страница:386
Страницы публикаций:426
Полные тексты:109
главный научный сотрудник
доктор физико-математических наук (1991)
Специальность ВАК: 01.04.03 (радиофизика)
Сайт: https://www.researchgate.net/profile/Sergey_Pulinets
Ключевые слова: внешнее зондирование ионосферы, радон, предвестники землетрясений, атмосферное электрическое поле. глобальная электрическая цепь.

Основные темы научной работы

Физика ионосферы, литосферно-атмосферно-ионосферное взаимодействие, прогноз землетрясений, дистанционное зондирование, атмосферно электричество, природные и тезногенные катастрофы

Научная биография:

• В 1972 г. окончил физический факультет МГУ, им. М.В. Ломоносова • С 1972 по 2007 – научный сотрудник, старший научный сотрудник, заведующий лабораторией, заведующий отделом, директор Отделения, заместитель директора Института (1999-2002), главный научный сотрудник Института земного магнетизма, ионосферы и распространения радиоволн им. Н.В. Пушкова РАН (ИЗМИРАН) • С 2002-по 2007 – Старший научный сотрудник Института геофизики Национального Автономного Университета Мексики (УНАМ), г. Мехико, Мексика • 2007 – 2008 – заместитель генерального директора Научного Центра Аэрокосмического Мониторинга Минобрнауки и РАН «АЭРОКОСМОС» • 2008 – 2012 – старший научный сотрудник, заведующий лабораторией, главный научный сотрудник Института прикладной геофизики им. академика Е.К. Фёдорова Росгидромета • 2009 – по настоящее время – ведущий научный сотрудник, главный научный сотрудник Института космических исследований РАН
   
Основные публикации:
  1. Пулинец С.А., Узунов Д.П., Карелин А.В., Давиденко Д.В., “Физические основы генерации краткосрочных предвестников землетрясений. Комплексная модель геофизических процессов в системе литосфера-атмосфера-ионосфера-магнитосфера, стимулируемых ионизацией”, Геомагнетизм и аэрономия, 55:4 (2015), 521-538
  2. Пулинец С.А., Давиденко Д.В., “Положительная ночная аномалия электронной концентрации в ионосфере как краткосрочный предвестник землетрясений и возможный физический механизм ее формирования”, Геомагнетизм и аэрономия, 58:4 (2018), 579-591
  3. Pulinets S., Ouzounov D., The possibility of earthquake forecasting. Learning from Nature, DOI 10.1088/978-0-7503-1248-6, IOP Publishing, Bristol, 2018
  4. Pulinets S.A., Boyarchuk K.A., Ionospheric precursors of earthquakes, Springer, Berlin, Heidelberg, New York, 2004
  5. Dimitar Ouzounov, Sergey Pulinets, Katsumi Hattori, Patrick Taylor, Pre‐Earthquake Processes: A Multidisciplinary Approach to Earthquake Prediction Studies, American Geophysical Union DOI:10.1002/9781119156949, Geophysical Monograph Series, 234, AGU/Wiley, 2018

https://www.mathnet.ru/rus/person76062
https://scholar.google.com/citations?user=Wu88rlgAAAAJ&hl=ru
Список публикаций на ZentralBlatt
https://orcid.org/0000-0003-3944-6686

Список публикаций:
| научные публикации | по годам | по типам | по числу цит. | общий список |


Цитирования (Crossref Cited-By Service + Math-Net.Ru)

   2022
1. Sergey Pulinets, Blaž Vičič, Pavel Budnikov, Jure Žalohar, Matic Potočnik, Marco Komac, Matej Dolenec, Real-time global shear-traction model verification using atmospheric effects of radon activity, EGU22-4746, mar, Copernicus GMBH, 2022  crossref
2. Sergey Pulinets, Pavel Budnikov, Alexander Karelin, Jure Žalohar, “Thermodynamic Instability of the Atmospheric Boundary Layer Stimulated by Tectonic and Seismic Activity”, SSRN Electronic Journal, 2022, Elsevier BV  crossref
3. Sergey Pulinets, “Thermodynamic Instability of the Atmospheric Boundary Layer as a Precursor of an Earthquake”, Nonequilibrium Thermodynamics and Fluctuation Kinetics, Springer International Publishing, 2022, 313–323  crossref 1

   2021
4. Sergey Pulinets, Galina Khachikyan, “The Global Electric Circuit and Global Seismicity”, Geosciences, 11:12, nov (2021), 491  crossref 13
5. Dimitar Ouzounov, Sergey Pulinets, Dmitry Davidenko, Alexandr Rozhnoi, Maria Solovieva, Viktor Fedun, B. N. Dwivedi, Anatoly Rybin, Menas Kafatos, Patrick Taylor, “Transient Effects in Atmosphere and Ionosphere Preceding the 2015 M7.8 and M7.3 Gorkha-Nepal Earthquakes”, Frontiers in Earth Science, 9, nov (2021)  crossref 31
6. Muhammad Arqim Adil, Erman {Ş}entfjrk, Sergey Alexander Pulinets, Christine Amory-Mazaudier, “A Lithosphere-Atmosphere-Ionosphere Coupling Phenomenon Observed Before M 7.7 Jamaica Earthquake”, Pure and Applied Geophysics, 178:10, sep (2021), 3869–3886  crossref 20
7. Titova A. M., V. I. Zakharov, S. A. Pulinets, “Recognition and interpretation of the spatial irregularities ionosphere for february - march 2010 over the seismic zones of South America by radiophysical methods”, Radio Communication Technology, 2021, no. 48, jun, 7–23  crossref 1
8. Sergey Pulinets, Andrzej Krankowski, Manuel Hernandez-Pajares, Sergio Marra, Iurii Cherniak, Irina Zakharenkova, Hanna Rothkaehl, Kacper Kotulak, Dmitry Davidenko, Leszek Blaszkiewicz, Adam Fron, Pawel Flisek, Alberto Garcia Rigo, Pavel Budnikov, “Ionosphere Sounding for Pre-seismic Anomalies Identification (INSPIRE): Results of the Project and Perspectives for the Short-Term Earthquake Forecast”, Frontiers in Earth Science, 9, apr (2021)  crossref 18
9. Aleksandra Nina, Pier Francesco Biagi, Srđan T. Mitrović, Sergey Pulinets, Giovanni Nico, Milan Radovanović, Luka Č. Popović, “Reduction of the VLF Signal Phase Noise Before Earthquakes”, Atmosphere, 12:4, mar (2021), 444  crossref 5
10. Sergey Pulinets, Marina Tsidilina, Dimitar Ouzounov, Dmitry Davidenko, “From Hector Mine M7.1 to Ridgecrest M7.1 Earthquake. A Look from a 20-Year Perspective”, Atmosphere, 12:2, feb (2021), 262  crossref 15
11. O. A. Alekseev, S. A. Pulinets, P. A. Budnikov, V. B. Serebriakov, N. V. Razumova, A. D. Lin'kov,, “Mock-Up of Information Service for Automated Monitoring and Short-Term Forecasting of Severe Earthquakes in the Kamchatka-Sakhalin Region”, Rocket-space device engineering and information systems, 8:4 (2021), 3–15, Russian Space Systems  crossref
12. Anatoly Petrukovich, Mikhail Mogilevskii, Igor Kozlov, Sergey Pulinetz, Yurii Dobrolenskii, Konstantin Anufreichik, Dmitrii Chugunin, Vladimir Nazarov, Aleksandr Abbakumov, Vladimir Kuznetsov, Stanislav Andrievskii, Yurii Mikhailov, Mikhail Panasyuk, Sergey Svertilov, Ivan Yashin, Vitaly Bogomolov, Anatoly Iyudin, Vladimir Kalegaev, Vladislav Osedlo, Vasilii Petrov, Andrey Shemukhin, Aleksey Repin, Nadezhda Kotanaeva, Pavel Moiseev, Sergey Poljakov, Yurii Shlugaev, Vasilii Asmus, Sergey Uspenskii, Leonid Makridenko, Aleksandr Gorbunov, Vladimir Kozhevnikov, “Monitoring of Physical Processes in Upper Atmosphere, Ionosphere and Magnetosphere in Ionosphere Space Missions”, EPJ Web of Conferences, 254 (2021), 02010  crossref

   2020
13. Christina Oikonomou, Haris Haralambous, Sergey Pulinets, Aakriti Khadka, Shukra R. Paudel, Veronika Barta, Buldan Muslim, Konstantinos Kourtidis, Athanasios Karagioras, Samed {İ}nyurt, “Investigation of Pre-Earthquake Ionospheric and Atmospheric Disturbances for Three Large Earthquakes in Mexico”, Geosciences, 11:1, dec (2020), 16  crossref 16
14. Dimitar Ouzounov, Sergey Pulinets, Ke Sun, Xuhui Shen, Menas Kafatos, “Atmosphere response to pre-earthquake processes revealed by satellite and ground observations. Case study for few strong earthquakes in Xinjiang, China (2008-2014)”, Annals of Geophysics, 63:5, nov (2020)  crossref 5
15. S. A. Pulinets, G. Ya. Khachikyan, “Unitary Variation in the Seismic Regime of the Earth: Carnegie-Curve Matching”, Geomagnetism and Aeronomy, 60:6, nov (2020), 787–792  crossref 4
16. L.I. Morozova, A.V. Nikolaev, S.A. Pulinets, “Cloud anomalies and earthquakes”, Geology and Geophysics of Russian South, 10:3, sep (2020)  crossref 1
17. Zhantayev Zhu.Sha, Khachikyan G.Ya., Pulinets S. A., Zhumabayev B. N., Toyshiev N. S., “Research of variations of seismic activity in connection with variations of structure and dynamics of the earth's radiation belt”, News of the National Academy of Sciences of the Republic of Kazakhstan. Physical-mathematical series, 3:331, jun (2020), 169–176  crossref
18. Dimitar Ouzounov, Sergey Pulinets, Guiampaolo Guiliani, Sylviya Velichkova-Iotsova, Menas Kafatos, Patrick Taylor, Pre-earthquake processes associated with the M6.4 of Nov 26, 2017 In Albania. A Multi parameters analysis, EGU2020-6251, mar, Copernicus GmbH, 2020  crossref 2
19. Sergey Pulinets, Galina Khachikyan, Solar induced earthquakes — review and new results, EGU2020-10821, mar, Copernicus GmbH, 2020  crossref
20. Aleksandra Nina, Sergey Pulinets, Pier Francesco Biagi, Giovanni Nico, Srđan T. Mitrović, Milan Radovanović, Luka C{\u}. Popović, “Variation in natural short-period ionospheric noise, and acoustic and gravity waves revealed by the amplitude analysis of a VLF radio signal on the occasion of the Kraljevo earthquake (Mw=5.4)”, Science of The Total Environment, 710, mar (2020), 136406, Elsevier BV  crossref 13
21. K.N. Sviridov, A.E. Tyulin, S.A. Pulinets, “New assessment of linear instrumental ground resolution of Earth remote sensing spacecraft for perfect design of its optoelectronic equipment”, Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 17:1 (2020), 59–67  crossref 1
22. Sergey Pulinets, Dimitar Ouzounov, Dmitry Davidenko, Pavel Budnikov, “Principles of organizing earthquake forecasting based on multiparameter sensor-WEB monitoring data”, E3S Web of Conferences, 196, eds. A. Dmitriev, G. Vodinchar, N. Salikhov, Z. Rakhmonov, EDP Sciences, 2020, 03004  crossref 6
23. Vadim Bogdanov and Valerey Gavrilov and Sergey Pulinets and Dimitar Ouzounov, “Responses to the preparation of strong Kamchatka earth-quakes in the lithosphere-atmosphere-ionosphere system, based on new data from integrated ground and iono-spheric monitoring”, E3S Web of Conferences, 196, ed. A. Dmitriev and G. Vodinchar and N. Salikhov and Z. Rakhmonov, EDP Sciences, 2020, 03005  crossref 9
24. S. A. Pulinets, G. Y. Khachikyan, “Unitary variation in the seismic regime of the Earth: Carnegie-curve matching”, Geomagnetism and Aeronomy, 60:6 (2020), 803–808, The Russian Academy of Sciences  crossref

   2019
25. Yuriy Rapoport, Vladimir Grimalsky, Andrzej Krankowski, Sergey Pulinets, Alla Fedorenko, Sergei Petrishchevskii, “Algorithm for modeling electromagnetic channel of seismo-ionospheric coupling (SIC) and the variations in the electron concentration”, Acta Geophysica, 68:1, nov (2019), 253–278, Springer Science and Business Media LLC  crossref 8
26. M. A. Titova, V. I. Zakharov, S. A. Pulinets, “Detection of Ionospheric Disturbances above the Haiti Region on January 1-15, 2010, according to GPS Data Obtained in Quiet Geomagnetic Conditions”, Geomagnetism and Aeronomy, 59:6, nov (2019), 743–751  crossref 4
27. S. A. Pulinets, V. V. Hegai, A. D. Legenka, L. P. Korsunova, “Effects in the Ionosphere after the Chilean Earthquake on February 27, 2010, According to Data of Ground-based Ionosondes”, Geomagnetism and Aeronomy, 59:5, sep (2019), 628–637  crossref 3
28. Sergey Pulinets, Nikolai Danilkin, Nadezhda Kotonaeva, Igor Danilov, “Complex Sounding of The Ionosphere in The Space Experiment on Board of The International Space Station and Transport Cargo “Progress””, 2019 Russian Open Conference on Radio Wave Propagation (RWP), jul, IEEE, 2019  crossref
29. D. V. Davidenko and S. A. Pulinets, “Deterministic Variability of the Ionosphere on the Eve of Strong (M $\geq$ 6) Earthquakes in the Regions of Greece and Italy According to Long-Term Measurements Data”, Geomagnetism and Aeronomy, 59:4, jul (2019), 493–508  crossref 19
30. Valerio Tramutoli, Francesco Marchese, Alfredo Falconieri, Carolina Filizzola, Nicola Genzano, Katsumi Hattori, Mariano Lisi, Jann-Yenq Liu, Dimitar Ouzounov, Michel Parrot, Nicola Pergola, Sergey Pulinets, “Tropospheric and Ionospheric Anomalies Induced by Volcanic and Saharan Dust Events as Part of Geosphere Interaction Phenomena”, Geosciences, 9:4, apr (2019), 177  crossref 15
31. M. A. Titova, S. A. Pulinets, V. I. Zakharov, “Detection of ionospheric disturbances above the Haiti region on january 1-15, 2010, according to GPS data obtained in quiet geomagnetic conditions”, Geomagnetism and Aeronomy, 59:6 (2019), 791–800  crossref 1
32. Davidenko D.V., Pulinets S.A., “Deterministic variability of the ionosphere on the eve of strong ($M\geqslant 6$) earthquakes in the regions of Greece and Italy according to long-term measurements data”, Geomagnetism and Aeronomy, 59:4 (2019), 529–544, Pleiades Publishing Ltd  crossref
33. S. A. Pulinets, V. V. Hegai, A. D. Legenka, L. P. Korsunova, “Effects in the ionosphere after the Chilean earthquake on february 27, 2010, according to data of ground-based ionosondes”, Geomagnetism and Aeronomy, 59:5 (2019), 671–680  crossref 1

   2018
34. Sergey Pulinets, The Possibility of Earthquake Forecasting: Learning from nature, IOP Publishing, 2018  crossref 64
35. S. A. Pulinets, A. D. Legen'ka, V. V. Hegai, V. P. Kim, L. P. Korsunova, “Ionosphere Disturbances Preceding Earthquakes according to the Data of Ground Based Station of the Vertical Ionospheric Sounding Wakkanai”, Geomagnetism and Aeronomy, 58:5, sep (2018), 686–692  crossref 4
36. S. A. Pulinets, D. V. Davidenko, “The Nocturnal Positive Ionospheric Anomaly of Electron Density as a Short-Term Earthquake Precursor and the Possible Physical Mechanism of Its Formation”, Geomagnetism and Aeronomy, 58:4, jul (2018), 559–570  crossref 28
37. Sergey Pulinets, Dimitar Ouzounov, Alexander Karelin, Dmitry Davidenko, “Lithosphere-Atmosphere-Ionosphere-Magnetosphere Coupling-A Concept for Pre-Earthquake Signals Generation”, Pre-Earthquake Processes, jun, John Wiley & Sons, Inc., 2018, 77–98  crossref 23
38. Dimitar Ouzounov, Sergey Pulinets, Jann-Yenq Tiger Liu, Katsumi Hattori, Peng Han, “Multiparameter Assessment of Pre-Earthquake Atmospheric Signals”, Pre-Earthquake Processes, jun, John Wiley & Sons, Inc., 2018, 339–359  crossref 13
39. Dimitar Ouzounov, Sergey Pulinets, Menas C. Kafatos, Patrick Taylor, “Thermal Radiation Anomalies Associated with Major Earthquakes”, Pre-Earthquake Processes, jun, John Wiley & Sons, Inc., 2018, 259–274  crossref 14
40. Pre-Earthquake Processes, jun, ed. Dimitar Ouzounov, Sergey Pulinets, Katsumi Hattori, Patrick Taylor, John Wiley & Sons, Inc., 2018  crossref 113
41. S. A. Pulinets, A. D. Legen'ka, V. V. Hegai, V. P. Kim, L. P. Korsunova, “Ionosphere disturbances preceding earthquakes according to the data of ground based station of the vertical ionospheric sounding Wakkanai”, Geomagnetism and Aeronomy, 58:5 (2018), 713–719  crossref 1
42. S. A. Pulinets, D. V. Davidenko, “The nocturnal positive ionospheric anomaly of electron density as a short-term earthquake precursor and the possible physical mechanism of its formation”, Geomagnetism and Aeronomy, 58:4 (2018), 579–591  crossref 1

   2017
43. A.N. Perminov, S.U. Kalinin, S.A. Pulinets, N.V. Razumova, V.V. Kostenko, A.D. Linkov,, “System for monitoring and forecasting emergencies: Structure development and prospects of creation”, Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 14:7 (2017), 41–51  crossref

   2016
44. M. Parrot, V. Tramutoli, Tiger J. Y. Liu, S. Pulinets, D. Ouzounov, N. Genzano, M. Lisi, K. Hattori, A. Namgaladze, Atmospheric and ionospheric coupling phenomena related to large earthquakes, Preprint nhess-2016-172, jun, Copernicus GmBH, 2016  crossref 8
45. Sergey Pulinets, Reply to the Masci comments, may, Copernicus GmbH, 2016  crossref
46. A. A. Chernyshov, D. V. Chugunin, M. M. Mogilevsky, I. L. Moiseenko, A. A. Ilyasov, V. V. Vovchenko, S. A. Pulinets, M. V. Klimenko, I. E. Zakharenkova, A. V. Kostrov, M. E. Gushchin, S.V. Korobkov, “Approaches to studying the multiscale ionospheric structure using nanosatellites”, Geomagnetism and Aeronomy, 56:1 (2016), 72–79  crossref 12
47. P. K. Rajesh, J. Y. Liu, N. Balan, C. H. Lin, Y. Y. Sun, S. A. Pulinets, “Morphology of midlatitude electron density enhancement using total electron content measurements”, Journal of Geophysical Research A: Space Physics, 121:2 (2016), 1503–1517  crossref 20
48. Sergey Pulinets, Dimitar Ouzounov, Dmitry Davydenko, Alexei Petrukhin, “Multiparameter monitoring of short-term earthquake precursors and its physical basis. Implementation in the Kamchatka region”, E3S Web of Conferences, 11, ed. B.M. Shevtsov, 2016, 00019  crossref 16
49. A. A. Chernyshov, D. V. Chugunin, M. M. Mogilevsky, I. L. Moiseenko, A. A. Ilyasov, V. V. Vovchenko, S. A. Pulinets, M. V. Klimenko, I. E. Zakharenkova, A. V. Kostrov, M. E. Gushchin, S. V. Korobkov, “Approaches to studying the multiscale ionospheric structure using nanosatellites”, Geomagnetism and Aeronomy, 56:1 (2016), 77–85  crossref

   2015
50. Sergey Pulinets, Revealing pre-earthquake signatures in atmosphere and ionosphere associated with 2015 M7.8 and M7.3 events in Nepal. Preliminary results, 2015
51. Sergey A. Pulinets, Lidia I. Morozova, Ilya A. Yudin, “Synchronization of atmospheric indicators at the last stage of earthquake preparation cycle”, Research in Geophysics, 4:1, jan (2015)  crossref 8
52. J. Y. Liu, Y. I. Chen, C. C. Huang, M. Parrot, X. H. Shen, S. A. Pulinets, Q. S. Yang, Y. Y. Ho, “A spatial analysis on seismo-ionospheric anomalies observed by DEMETER during the 2008 M8.0 Wenchuan earthquake”, Journal of Asian Earth Sciences, 114 (2015), 414–419  crossref 30
53. S. A. Pulinets, D. P. Ouzounov, A. V. Karelin, D. V. Davidenko, “Physical bases of the generation of short-term earthquake precursors: A complex model of ionization-induced geophysical processes in the lithosphere-atmosphere-ionosphere-magnetosphere system”, Geomagnetism and Aeronomy, 55:4 (2015), 521–538  crossref 138
54. S. A. Pulinets, D. V. Davidenko, A. W. Krankowski, M. Hernandez-Pajares, “The physical background and GPS TEC processing technology for identification of ionospheric anomalies forming over seismically active zones and leading to GNSS signals degradation”, 2015 1st URSI Atlantic Radio Science Conference, URSI AT-RASC 2015, IEEE, 2015
55. S. A. Pulinets, D. V. Davidenko, D. P. Ouzounov, A. V. Karelin, “Physical bases of the generation of short-term earthquake precursors: a complex model of ionization-induced geophysical processes in the lithosphere-atmosphere-ionosphere-magnetosphere system”, Geomagnetism and Aeronomy, 55:4 (2015), 540–558  crossref 4

   2014
56. С.А. Пулинец, Д.П. Узунов, Д.В. Давиденко, С.А. Дудкин, Е.И. Цадиковский, Прогноз землетрясений возможен?!, Тровант, М., 2014, 144 с.  crossref 1
57. Sergey Pulinets, “Electromagnetic effects in atmosphere, ionosphere and magnetosphere initiated by earthquake preparation process”, 2014 31th URSI General Assembly and Scientific Symposium, URSI GASS 2014, IEEE, 2014
58. V. G. Bondur, S. A. Pulinets, “Erratum to: Effect of Mesoscale Atmospheric Vortex Processes on the Upper Atmosphere and Ionosphere of the Earth (Izvestiya, Atmospheric and Oceanic Physics, (2012), 48, 9, 10.1134/S0001433812090034)”, Izvestiya - Atmospheric and Ocean Physics, 50:2 (2014)
59. S. Pulinets, D. Davidenko, “Ionospheric precursors of earthquakes and Global Electric Circuit”, Advances in Space Research, 53:5 (2014), 709–723  crossref 134
60. N. S. Erokhin, A. B. Shvartsburg, S. A. Pulinets, “Nonlinear broadband doubling of the extraordinary wave frequency in inhomogeneous magnetoactive plasma”, Plasma Physics Reports, 40:3 (2014), 194–201  crossref 2
61. K. Ryu, E. Lee, J. S. Chae, M. Parrot, S. Pulinets, “Seismo-ionospheric coupling appearing as equatorial electron density enhancements observed via DEMETER electron density measurements”, Journal of Geophysical Research: Space Physics, 119:10 (2014), 8524–8542  crossref 41
62. K. Ryu, M. Parrot, S. G. Kim, K. S. Jeong, J. S. Chae, S. Pulinets, K.-I. Oyama, “Suspected seismo-ionospheric coupling observed by satellite measurements and GPS TEC related to the M7.9 Wenchuan earthquake of 12 May 2008”, Journal of Geophysical Research: Space Physics, 119:12 (2014), 10305–10323  crossref 39
63. D. Ouzounov, S. Pulinets, V. Tramutoli, T. Liu, K. Hattori, M. Parrot, A. Namgaladze, D. Solomentsev, “Validation of Lithosphere-Atmosphere-Ionosphere coupling concept by geo space observation of natural and anthropogenic processes”, 2014 31th URSI General Assembly and Scientific Symposium, URSI GASS 2014, 2014
64. N. S. Erokhin, A. B. Shvartsburg, S. A. Pulinets, “Nonlinear broadband doubling of the extraordinary wave frequency in inhomogeneous magnetoactive plasma”, Plasma Physics Reports, 40:3 (2014), 257–264  crossref

   2013
65. N. Blaunstein, S. A. Pulinets, Y. Cohen, “Computation of the key parameters of radio signals propagating through a perturbed ionosphere in the land-satellite channel”, Geomagnetism and Aeronomy, 53:2 (2013), 204–215  crossref 2
66. D.P. Ouzounov, S. A. Pulinets, D. V. Davidenko, M. Kafatos, P. G. Taylor, “Space-borne observations of atmospheric pre-earthquake signals in seismically active areas”, Case study for Greece 2008-2009 (Thessaloniki, Greece), ed. D. Arabelos, C. Kaltsikis S. Spatalas I. N. Tziavos, 2013
67. N. Blaunstein, Y. Cohen, S.A. Pulinets, “Computation of the key parameters of radio signals propagating through a perturbed ionosphere in the land-satellite channel”, Geomagnetism and Aeronomy, 53:2 (2013), 215–227  crossref 1

   2012
68. Liming He, Lixin Wu, Sergey Pulinets, Shanjun Liu, “Short timescale variations in ionosphere caused by irregular solar electromagnetic radiation”, 2012 IEEE International Geoscience and Remote Sensing Symposium, jul, IEEE, 2012  crossref
69. L. He, L. Wu, S. Pulinets S. Liu, F. Yang, “A nonlinear background removal method for seismo-ionospheric anomaly analysis under a complex solar activity scenario: A case study of the M9.0 Tohoku earthquake”, Advances in Space Research, 50:2 (2012), 211–220  crossref 37
70. G. C. Anagnostopoulos, E. Vassiliadis, S. Pulinets,, “Characteristics of flux-time profiles, temporal evolution, and spatial distribution of radiation-belt electron precipitation bursts in the upper ionosphere before great and giant earthquakes”, Annals of Geophysics, 55:1 (2012), 21–36
71. V.G. Bondur, S.A. Pulinets, “Effect of mesoscale atmospheric vortex processes on the upper atmosphere and ionosphere of the Earth”, Izvestiya - Atmospheric and Ocean Physics, 48:9 (2012), 871–878  crossref 11
72. S. Pulinets, “Low-latitude atmosphere-ionosphere effects initiated by strong earthquakes preparation process”, International Journal of Geophysics, 2012 (2012)  crossref 51
73. V. Tramutoli, S. Inan, N. Jakowski, S. Pulinets, A. Romanov, C. Filizzola, I. Shagimuratov, N. Pergola, N. Genzano, C. Serio, M. Lisi, R. Corrado, C.S. Grimaldi, M. Faruolo, R. Petracca, S. Ergintav, Z. Cakir, E. Alparslan, S. Gurol, M.M. Hoque, K.D. Missling, V. Wilken, C. Borries, Y. Kalilnin, K. Tsybulia, E. Ginzburg, A. Pokhunkov, L. Pustivalova, A. Romanov, I. Cherny, S. Trusov, A. Adjalova, D. Ermolaev, S. Bobrovsky, R. Paciello, I. Coviello, A. Falconieri, I. Zakharenkova, Y. Cherniak, A. Radievsky, V. Lapenna, M. Balasco, S. Piscitelli, T. Lacava, G. Mazzeo, “PRE-EARTHQUAKES, an FP7 project for integrating observations and knowledges on earthquake precursors: Preliminary results and strategy”, International Geoscience and Remote Sensing Symposium (IGARSS), 2012, 3536–3539
74. M.V. Klimenko, V.V. Klimenko, I.E. Zakharenkova, and S.A. Pulinets, “Variations of equatorial electrojet as possible seismo-ionospheric precursor at the occurrence of TEC anomalies before strong earthquake”, Advances in Space Research, 49:3 (2012), 509–517  crossref 19

   2011
75. Sergey Pulinets, “The synergy of earthquake precursors”, Earthquake Science, 24:6, dec (2011), 535–548  crossref 36
76. Sergey Pulinets, Atmosphere-Ionosphere Response to the M9 Tohoku Earthquake Revealed by Joined Satellite and Ground Observations, Preliminary results, 2011
77. Sergey Pulinets, “A Multi-Parameter Approach to Earthquake Forecasting”, Executive Intelligence Review, 2011
78. N. P. Laverov, S. A. Pulinets, D. P. Uzunov, “Application of the thermal effect of the atmosphere ionization for remote diagnostics of the radioactive pollution of the atmosphere”, Doklady Earth Sciences, 441:1 (2011), 1560–1563  crossref 3
79. D. Ouzounov, S. Pulinets, A. Romanov, K. Tsybulya, D. Davidenko, M. Kafatos, P. Taylor, “Atmosphere-Ionosphere Response to the M9 Tohoku Earthquake Revealed by Joined Satellite and Ground Observations. Preliminary Results”, Earthquake, 2011, 15
80. D. Ouzounov, S. Pulinets, K. Hattori, M. Kafatos, P. Taylor, Atmospheric Response to Fukushima Daiichi NPP (Japan) Accident Reviled by Satellite and Ground observations, 2011, 8 pp., arXiv: 1107.0930
81. D. Ouzounov, S. Pulinets, K. Hattori, M. Kafatos, P. Taylor, “Atmospheric Signals Associated with Major Earthquakes. A Multi-Sensor Approach.”, Electromagnetic Phenomena Associated with Earthquakes (Tokyo), ed. Hayakawa Masashi, 2011
82. M.V. Klimenko, V.V. Klimenko, I.E. Zakharenkova, S.A. Pulinets, B. Zhao, M.N. Tsidilina, “Formation mechanism of great positive TEC disturbances prior to Wenchuan earthquake on May 12, 2008”, Advances in Space Research, 48:3 (2011), 488–499  crossref 81
83. S. Pulinets, D. Ouzounov, “Lithosphere-Atmosphere-Ionosphere Coupling (LAIC) model - An unified concept for earthquake precursors validation”, Journal of Asian Earth Sciences, 41:4-5 (2011), 371–382  crossref 473
84. S.A. Pulinets, A.A. Rozhnoi, M.S. Solovieva, L. Ciraolo, “Radiophysical techniques of short-term earthquake precursors and their congruence. the case of L'Aquila earthquake of 06 April 2009”, 2011 30th URSI General Assembly and Scientific Symposium, URSIGASS 2011, 2011
85. S.A. Pulinets, N.P. Danilkin, K.G. Tsybulya, E.A. Pan'shin, “Space plasma environment at high and polar latitudes by the Cosmos 1809 satellite topside sounder data”, 2011 30th URSI General Assembly and Scientific Symposium, URSIGASS 2011, 2011

   2010
86. S. Pulinets, D. Ouzounov, G. Giuliani, L. Ciraolo, P. Taylor, “Atmosphere awakening prior to Abruzzo, Italy, M6.3 Earthquake of April 6, 2009 revealed by joined satellite and ground observations”, Geophysical Research Abstracts, 12:1 (2010), 12869
87. N.I. Izhovkina, A.T. Karpachev, I.S. Prutensky, S.A. Pulinets, Z. Klos, H. Rotkel, “Electrostatic radiation of plasma in the upper ionosphere in the inhomogeneous geomagnetic field”, Geomagnetism and Aeronomy, 49:8 (2010), 1254–1256  crossref
88. V. Grimalsky, A. Kotsarenko, S. Pulinets, S. Koshevaya, R. Perez-Enriquez, “On the modulation of intensity of Alfvén resonances before earthquakes: Observations and model”, Journal of Atmospheric and Solar-Terrestrial Physics, 72:1 (2010), 1–6  crossref 4
89. S.A. Pulinets, D. Ouzounov, “Satellite Technologies have no alternative. On the problem of the natural and technogenic disasters monitoring” (Moscow, 2010), FIAG Proceedings, 89, 2010, 173–185
90. S.A. Pulinets, K.G. Tsybulya, “Unique variations of the total electron content in the preparation period of Haitian earthquake (M7.9) on January 12, 2010”, Geomagnetism and Aeronomy, 50:5 (2010), 686–689  crossref 14
91. S.A. Pulinets, V.G. Bondur, M.N. Tsidilina, M.V. Gaponova, “Verification of the concept of seismoionospheric coupling under quiet heliogeomagnetic conditions, using the Wenchuan (China) earthquake of May 12, 2008, as an example”, Geomagnetism and Aeronomy, 50:2 (2010), 231–242  crossref 60

   2009
92. Alexey Romanov, Youry Urlichich, Sergey Pulinets, Alexander Romanov, Victor Selin, “A pilot project on the comphrensive diagnosis of earthquake precursors on Sakhalin Island: Experiment results from 2007”, PICES Scientific Report, 2009, no. 36, 208–214
93. S.A. Pulinets, “Physical mechanism of the vertical electric field generation over active tectonic faults”, Advances in Space Research, 44:6 (2009), 767–773  crossref 112
94. N.I. Izhovkina, I.S. Prutensky, S.A. Pulinets, N.S. Erokhin, L.A. Mikhailovskaya, Z. Klos, H. Rothkaehl, “Plasma inhomogeneities in the topside ionosphere in the region of the geomagnetic equator and wave radiation according to the APEX satellite data”, Geomagnetism and Aeronomy, 49:2 (2009), 210–218  crossref 1
95. S.A. Pulinets, A.A. Romanov, Yu.M. Urlichich, A.A. Romanov Jr., L.N. Doda, D. Ouzounov, “The first results of the pilot project on complex diagnosing earthquake precursors on Sakhalin”, Geomagnetism and Aeronomy, 49:1 (2009), 115–123  crossref 13

   2008
96. N.I. Izhovkina, I.S. Prutensky, S.A. Pulinets, N.S. Erokhin, L.A. Mikhailovskaya, Z. Klos, H. Rothkaehl, “Electromagnetic waves and electrostatic oscillations in an inhomogeneous plasma structure at the geomagnetic equator”, Geomagnetism and Aeronomy, 48:5 (2008), 631–641  crossref 3
97. N.I. Izhovkina, A.T. Karpachev, I.S. Prutensky, S.A. Pulinets, Z. Klos, H. Rothkaehl, “Electrostatic radiation of the upper ionosphere plasma in the inhomogeneous geomagnetic field”, Solar-Terrestrial Physics, 2 (2008), 252–254
98. V. G. Bondur, S. A. Pulinets, G. A. Kim, “Role of Variations in Galactic Cosmic Rays in Tropical Cyclogenesis: Evidence of Hurricane Katrina”, Transactions (Doklady) of the Russian Academy of Sciences/Earth Science Section, 422:7 (2008), 1124–1128
99. V.G. Bondur, S.A. Pulinets, G.A. Kim, “Role of variations in galactic cosmic rays in tropical cyclogenesis: Evidence of Hurricane Katrina”, Doklady Earth Sciences, 422:1 (2008), 1124–1128  crossref 21

   2007
100. S. A. Pulinets, P. Biagi, V. Tramutoli, A. D. Legen'ka, V. Kh. Depuev, “Irpinia earthquake 23 November 1980 - Lesson from Nature reviled by joint data analysis”, Annals of Geophysics, 50:1 (2007), 61–78
101. S.A. Pulinets, “Natural radioactivity, earthquakes, and the ionosphere”, Eos, 88:20 (2007), 217–218  crossref 47
102. S.A. Pulinets, A.N. Kotsarenko, L. Ciraolo, I.A. Pulinets, “Special case of ionospheric day-to-day variability associated with earthquake preparation”, Advances in Space Research, 39:5 (2007), 970–977  crossref 65
103. S.A. Pulinets, M.A. Dunajecka, “Specific variations of air temperature and relative humidity around the time of Michoacan earthquake M8.1 Sept. 19, 1985 as a possible indicator of interaction between tectonic plates”, Tectonophysics, 431:1-4 (2007), 221–230  crossref 53
104. N.I. Izhovkina, I.S. Prutensky, S.A. Pulinets, Z. Klos, H. Rothkaehl, “Wave emission during a plasma density jump in the auroral zone of the topside ionosphere according to the APEX satellite data”, Geomagnetism and Aeronomy, 47:6 (2007), 739–749  crossref

   2006
105. S. Pulinets, G. Bisiacchi, J. Berlinski, M. Dunajecka, A. Vega, “First results of the new type of measurements of atmospheric electric field in Mexico”, Computing, 2:4 (2006)
106. D. Bilitza, B.W. Reinisch, S.M. Radicella, S. Pulinets, T. Gulyaeva, L. Triskova, “Improvements of the International Reference Ionosphere model for the topside electron density profile”, Radio Science, 41:5 (2006)  crossref 74
107. S.A. Pulinets, A.N. Kotsarenko, R. Perez-Enriquez, L. Ciraolo, I.A. Pulinets, “New Ionosphere Variability Index and its Anomaly Variation Related to Major Earthquakes Occurred in California, USA and Mexico”, Proceedings of the 6th International Conference «PROBLEMS OF GEOCOSMOS» (St. Petersburg, Petrodvorets May 23-27, 2006), eds. V.N. Troyan, V.S. Semenov, M.V. Kubyshkina, Sankt-Petersburg, 2006, 375–379
108. N.I. Izhovkina, I.S. Prutensky, S.A. Pulinets, Z. Klos, H. Rothkaehl, “Plasma wave radiation in the main ionospheric trough in the region of the terminator from the APEX satellite data”, Geomagnetism and Aeronomy, 46:6 (2006), 717–723  crossref 4
109. M. Hayakawa, S. Pulinets, M. Parrot, O.A. Molchanov, “Recent progress in seismo electromagnetics and related phenomena”, Physics and Chemistry of the Earth, 31:4-9 (2006), 129–131  crossref 14
110. D. Ouzounov, N. Bryant, T. Logan, S. Pulinets, P. Taylor, “Satellite thermal IR phenomena associated with some of the major earthquakes in 1999-2003”, Physics and Chemistry of the Earth, 31:4-9 (2006), 154–163  crossref 108
111. S.A. Pulinets, “Space technologies for short-term earthquake warning”, Advances in Space Research, 37:4 (2006), 643–652  crossref 30
112. S.A. Pulinets, D. Ouzounov, A.V. Karelin, K.A. Boyarchuk, L.A. Pokhmelnykh, “The physical nature of thermal anomalies observed before strong earthquakes”, Physics and Chemistry of the Earth, 31:4-9 (2006), 143–153  crossref 157
113. S.A. Pulinets, D. Ouzounov, L. Ciraolo, R. Singh, G.  Cervone, A. Leyva, M. Dunajecka, A.V. Karelin, K.A. Boyarchuk, A. Kotsarenko, “Thermal, atmospheric and ionospheric anomalies around the time of the Colima M7.8 earthquake of 21 January 2003”, Annales Geophysicae, 24:3 (2006), 835–849  crossref 113

   2005
114. M.A. Dunajecka, S.A. Pulinets, “Atmospheric and thermal anomalies observed around the time of strong earthquakes in México”, Atmosfera, 18:4 (2005), 235–247
115. N.I. Izhovkina, I.S. Prutensky, S.A. Pulinets, A. Kiraga, Z. Klos, H. Rothkael, “Electrostatic noise spectrum at the electron cyclotron frequency and electromagnetic emission in the inhomogeneous plasma of the topside ionosphere”, Cosmic Research, 43:3 (2005), 192–198  crossref
116. N. Segovia, S.A. Pulinets, A. Leyva, M. Mena, M. Monnin, M.E. Camacho, M.G. Ponciano, V. Fernandez, “Ground radon exhalation, an electrostatic contribution for upper atmospheric layers processes”, Radiation Measurements, 40:2-6 (2005), 670–672  crossref 13
117. S. Pulinets, K. Boyarchuk, Ionospheric precursors of earthquakes, Springer-Verlag, Berlin–Heidelberg, 2005, 315 pp.
118. N.I. Izhovkina, I.S. Prutensky, S.A. Pulinets, N.M. Shutte, Z. Klos, H. Rothkaehl, “Stochastic spectra of electrostatic oscillations in ionospheric plasma”, Geomagnetism and Aeronomy, 45:2 (2005), 196–202
119. S.A. Pulinets, A.L. Contreras, G. Bisiacchi-Giraldi, L. Ciraolo, “Total eletron content variations in the ionosphere before the Colima, Mexico, earthquake of 21 January 2003”, Geofisica Internacional, 44:4 (2005), 369–377  crossref 51

   2004
120. V.H. Depuev, S.A. Pulinets, “A global empirical model of the ionospheric topside electron density”, Advances in Space Research, 34:9 (2004), 2016–2020  crossref 31
121. S.A. Pulinets, T.B. Gaivoronska, A.L. Contreras, L. Ciraolo, “Correlation analysis technique revealing ionospheric precursors of earthquakes”, Natural Hazards and Earth System Science, 4:5-6 (2004), 697–702  crossref 60
122. N.I. Izhovkina, I.S. Prutenskii, S.A. Pulinets, Z. Klos, H. Rothkaehl, “Electrostatic emission and plasma inhomogeneities in the topside ionosphere at the geomagnetic equator”, Geomagnetism and Aeronomy, 44:2 (2004), 175–182
123. S.A. Pulinets, J.Y. Liu, I.A. Safronova, “Interpretation of a statistical analysis of variations in the foF2 critical frequency before earthquakes based on data from Chung-Li ionospheric station (Taiwan)”, Geomagnetism and Aeronomy, 44:1 (2004), 102–106
124. H. Rothkaehl, N. Izohkina, I. Prutensky, S. Pulinets, M. Parrot, G. Lizunov, J. Blecki, I. Stanislawska, “Ionospheric disturbances generated by different natural processes and by human activity in Earth plasma environment”, Annals of Geophysics, 47:2-3, Suppl. (2004), 1215–1225
125. S. Pulinets, “Ionospheric precursors of earthquakes: Recent advances in theory and practical applications”, Terrestrial, Atmospheric and Oceanic Sciences, 15:3 (2004), 413–435  crossref 173
126. S.A. Pulinets, J.Y. Liu, “Ionospheric variability unrelated to solar and geomagnetic activity”, Advances in Space Research, 34:9 (2004), 1926–1933  crossref 32
127. D. Ouzounov, P. Taylor, N. Bryant, S. Pulinets, J.-Y. Liu, K.-S. Yang, “Near space tracking of EM phenomena associated with the main earthquakes”, International Astronautical Federation - 55th International Astronautical Congress 2004, v. 2, 2004, 1175–1182
128. J.Y. Liu, Y.J. Chuo, S.J. Shan, Y.B. Tsai, Y.I. Chen, S.A. Pulinets, S.B. Yu, “Pre-earthquake ionospheric anomalies registered by continuous GPS TEC measurements”, Annales Geophysicae, 22:5 (2004), 1585–1593  crossref 378
129. S.A. Pulinets, A. Leyva Contreras, V. Kostoglodov, H. Perez de Tejada, J. Urrutia-Fucugauchi, “Prevention project: A complex geophysical observatory in Mexico as a test facility for lithosphere-atmosphere-ionosphere coupling models”, Physics and Chemistry of the Earth, 29:4-9 (2004), 657–662  crossref 1
130. A. Trigunait, M. Parrot, S. Pulinets, F. Li, “Variations of the ionospheric electron density during the Bhuj seismic event”, Annales Geophysicae, 22:12 (2004), 4123–4131  crossref 58

   2003
131. S.J. Jason, S. Pulinets, A. Da Silva Curiel, D. Liddle, “Earthquake science research with a microsatellite”, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 361:1802 (2003), 169–173  crossref 5
132. S.A. Pulinets, A.D. Legen'ka, T.V. Gaivoronskaya, V.Kh. Depuev, “Main phenomenological features of ionospheric precursors of strong earthquakes”, Journal of Atmospheric and Solar-Terrestrial Physics, 65:16-18 (2003), 1337–1347  crossref 204
133. N.I. Bud'ko, I.S. Prutenskii, S.A. Pulinets, V.S. Dokukin, N.M. Shutte, O.A. Plokhova, Z. Klos, A. Kiraga, “Some features of the plasma turbulence region in the active experiments on board the APEX satellite”, Geomagnetism and Aeronomy, 43:3 (2003), 335–344
134. S.A. Pulinets, A.D. Legen'ka, “Spatial-temporal characteristics of large scale disturbances of electron density observed in the ionospheric F-region before strong earthquakes”, Cosmic Research, 41:3 (2003), 221–229  crossref 81

   2002
135. V. P. Kim, S. A. Pulinets, V. V. Hegai, “Theoretical model of possible disturbances in the nighttime mid-latitude ionospheric d region over an area of strong-earthquake preparation”, Radiophysics and Quantum Electronics, 45:4 (2002), 262–268  crossref 12
136. S.A. Pulinets, A.D. Legen'ka, “Dynamics of the near-equatorial ionosphere prior to strong earthquakes”, Geomagnetism and Aeronomy, 42:2 (2002), 227–232
137. N.I. Izhovkina, I.S. Prutenskii, S.A. Pulinets, Z. Klos, H. Rothkaehl, “Electrostatic emissions in magnetoplasma irregularity in the region of the South Atlantic geomagnetic anomaly”, Geomagnetism and Aeronomy, 42:5 (2002), 660–665
138. S.A. Pulinets, I.A. Safronova, “Global ionosphere dynamics inferred from topside sounding”, COSPAR Colloquia Series, 12:C (2002), 341–345  crossref
139. S.A. Pulinets, K.A. Boyarchuk, A.M. Lomonosov, V.V. Khegal, I.Ya. Lyu, “Ionospheric precursors to earthquakes: A preliminary analysis of the foF2 critical frequencies at Chung-Li ground-based station for vertical sounding of the ionosphere (Taiwan Island)”, Geomagnetism and Aeronomy, 42:4 (2002), 508–513
140. Pulinets, S.A. and Depuev, V.H. and Karpachev, A.T. and Radicella, S.M. and Danilkin, N.P., “Recent advances in topside profile modeling”, Advances in Space Research, 29:6 (2002), 815–823  crossref 16
141. Zhang, M.L. and Radicella, S.M. and Kersley, L. and Pulinets, S.A., “Results of the modeling of the topside electron density profile using the chapman and epstein functions”, Advances in Space Research, 29:6 (2002), 871–876  crossref 5
142. Chuo, Y.J. and Liu, J.Y. and Pulinets, S.A. and Chen, Y.I., “The ionospheric perturbations prior to the Chi-Chi and Chia-Yi earthquakes”, Journal of Geodynamics, 33:4-5 (2002), 509–517  crossref 20
143. Khegai, V.V. and Legen'ka, A.D. and Pulinets, S.A. and Kim, V.P., “Variations in the ionospheric F2 region prior to the catastrophic earthquake in Alaska on March 28, 1964, according to the data of the ground-based stations of the ionospheric vertical sounding”, Geomagnetism and Aeronomy, 42:3 (2002), 344–349
144. V.P. Kim, S.A. Pulinets, V.V Hegai, “Theoretical model of possible perturbations in the nighttime mid-latitude ionospheric D region over an area of major-earthquake preparation”, Izvestiya Vysshikh Uchebnykh Zavedenij. Radiofizika, 45:4 (2002), 289–297

   2001
145. V.P. Kuleshova, S.A. Pulinets, E.A. Sazanova, A.M. Kharchenko, “Biotropic Effects of Geomagnetic Storms and their Seasonal Regularities”, Biofizika, 46:5 (2001)
146. V.P. Kuleshova, S.A. Pulinets, E.A. Sazanova, A.M. Kharchenko, “Biotropic effects of geomagnetic storms and their seasonal variations”, Biofizika, 46:5 (2001), 930–934
147. V.P. Kuleshova, S.A. Pulinets, “Dependence of Human Health on Geomagnetic Activity”, Biofizika, 46:5 (2001)
148. N.I. Izhovkina, A.T. Karpachev, I.S. Prutenskii, S.A. Pulinets, Z. Klos, H. Rothkaehl, “Heating and decay of irregularities in the electrostatically unstable plasma of the upper ionosphere”, Geomagnetism and Aeronomy, 41:4 (2001), 469–473
149. Depuev, V.H. and Pulinets, S.A., “Intercosmos-19 observations of an additional topside ionization layer: The F3 layer”, Advances in Space Research, 27:6-7 (2001), 1289–1292  crossref 24
150. Chuo, Y.J. and Chen, Y.I. and Liu, J.Y. and Pulinets, S.A., “Ionospheric foF2 variations prior to strong earthquakes in Taiwan area”, Advances in Space Research, 27:6-7 (2001), 1305–1310  crossref 21
151. Pulinets, S.A. and Liu, J.-Y. and Chuo, Y.-J. and Danilkin, N.P. and Depuev, V.Kh. and Kotonaeva, N.G., “MIR space station topside sounding near Taiwan”, Terrestrial, Atmospheric and Oceanic Sciences, 12:3 (2001), 525–536  crossref 3
152. Nava, B. and Radicella, S.M. and Pulinets, S. and Depuev, V., “Modelling bottom and topside electron density and TEC with profile data from topside ionograms”, Advances in Space Research, 27:1 (2001), 31–34  crossref 8
153. Choueiri, E.Y. and Oraevsky, V.N. and Dokukin, V.S. and Volokitin, A.S. and Pulinets, S.A. and Ruzhin, Y.Y. and Afonin, V.V., “Observations and modeling of neutral gas releases from the APEX satellite”, Journal of Geophysical Research: Space Physics, 106:A11 (2001), 25673–25681  crossref 13
154. Kuleshova, V.P. and Pulinets, S.A., “Severe trauma rate during planet geomagnetic storms | Chastota poiavleniia tiazhelykh travm v periody planetarnykh geomagnitnykh bur'.”, Biofizika, 46:5 (2001), 927–929

   2000
155. Depuev, V.H. and Pulinets, S.A., “Global distribution of night-time F2 peak density (INTERCOSMOS-19 data)”, Advances in Space Research, 25:1 (2000), 105–108  crossref 4
156. Pulinets, S.A. and Boyarchuk, K.A. and Hegai, V.V. and Kim, V.P. and Lomonosov, A.M., “Quasielectrostatic model of atmosphere-thermosphere-ionosphere coupling”, Advances in Space Research, 26:8 (2000), 1209–1218  crossref 169
157. Liu, J.Y. and Chen, Y.I. and Pulinets, S.A. and Tsai, Y.B. and Chuo, Y.J., “Seismo-ionospheric signatures prior to M ? 6.0 Taiwan earthquakes”, Geophysical Research Letters, 27:19 (2000), 3113–3116  crossref 224

   1999
158. Oraevskii, V.N. and Choueiri, E.Y. and Dokukin, V.S. and Volokitin, A.S. and Pulinets, S.A. and Ruzhin, Yu.Ya. and Afonin, V.V., “APEKS: Neutral xenon release experiments”, Geomagnetism and Aeronomy, 39:5 (1999), 582–591
159. Baranets, N.V. and Ruzhin, Yu.Ya. and Afonin, V.V. and Oraevsky, V.N. and Pulinets, S.A. and Dokukin, V.S. and Mikhailov, Yu.M. and Sobolev, Ya.P. and Zhuzgov, L.N. and Prutensky, I.S., “Active experiments in space for the investigation of beam-plasma interactions. Results of the apex project”, Advances in Space Research, 24:8 (1999), 981–984  crossref 2
160. Bud'ko, N.I. and Prutenskii, I.S. and Pulinets, S.A. and Shutte, N.M. and Plokhova, O.A. and Kiraga, A. and Klos, Z. and Rothkähl, H., “Anisotropic ion distributions during observations of broadband plasma noise in the topside ionosphere”, Geomagnetism and Aeronomy, 39:5 (1999), 558–567
161. Kim, V.P. and Pulinets, S.A. and Khegai, V.V., “Possible changes in the nighttime mid-latitude ionospheric F2 region above a large crustal fault”, Izvestiya - Physics of the Solid Earth, 35:10 (1999), 876–878
162. S.A. Pulinets, V.A. Alekseev, K.A. Boyarchuk, V.V. Hegai, V.K.H. Depuev, “Radon and ionosphere monitoring as a means for strong: Earthquakes forecast”, Nuovo Cimento della Societa Italiana di Fisica C, 22:3-4 (1999), 621–626

   1998
163. С. А. Пулинец, В. В. Хегай, К. А. Боярчук, А. М. Ломоносов, “Атмосферное электрическое поле как источник изменчивости ионосферы”, УФН, 168:5 (1998), 582–589  mathnet  crossref  isi; S. A. Pulinets, V. V. Khegai, K. A. Boyarchuk, A. M. Lomonosov, “The atmospheric electric field as a source of variability in the ionosphere”, Phys. Usp., 41:5 (1998), 515–522  crossref  isi 88
164. V.N. Oraevsky, S.A. Pulinets, N.I. Bud'ko, I.S. Prutensky, V.V. Vas'kov, Z. Klos, A. Kiraga, H. Rothkaehl, Z. Zbyszylski, G.P. Komrakov, “Emissions stimulated in the upper ionosphere by the sura heating facility”, Advances in Space Research, 21:5 (1998), 671–675  crossref 2
165. S.A. Pulinets, A.D. Legen'ka, T.I. Zelenova, “Local-time dependence of seismo-ionospheric variations at the F-layer maximum”, Geomagnetism and Aeronomy, 38:3 (1998), 400–402
166. S.A. Pulinets, “Seismic activity as a source of the ionospheric variability”, Advances in Space Research, 22:6 (1998), 903–906  crossref 90
167. S.A. Pulinets, “Strong earthquake prediction possibility with the help of topside sounding from satellites”, Advances in Space Research, 21:3 (1998), 455–458  crossref 43
168. E.P. Szuszczewicz, P. Blanchard, P. Wilkinson, G. Crowley, T. Fuller-Rowell, P. Richards, M. Abdu, T. Bullett, R. Hanbaba, M. Lebreton, J.P. and Lester, M. and Lockwood, G. Millward, M. Wild, S. Pulinets, B.M. Reddy, I. Stanislawska, G. Vannaroni, B. Zolesi, “The first real-time worldwide ionospheric predictions network: An advance in support of spaceborne experimentation, on-line model validation, and space weather”, Geophysical Research Letters, 25:4 (1998), 449–452  crossref 8
169. N.I. Bud'ko, I.S. Prutenskii, S.A. Pulinets, N.M. Shyutte, Z. Klos, H. Rothkaehl, Z. Zbyszynski, “The morphological peculiarities of the observation of a broadband radio-frequency noise in the topside ionosphere”, Geomagnetism and Aeronomy, 38:5 (1998), 638–644
170. S.A. Pulinets, V.P. Kim, V.V. Hegai, V.Kh. Depuev, S.M. Radicella, “Unusual longitude modification of the night-time midlatitude F2 region ionosphere in July 1980 over the array of tectonic faults in the Andes area: Observations and interpretation”, Geophysical Research Letters, 25:22 (1998), 4133–4136  crossref 11
171. K.A. Boyarchuk, A.M. Lomonosov, S.A. Pulinets, V.V. Hegai, “Variability of the earth's atmospheric electric field and ion-aerosols kinetics in the troposphere”, Studia Geophysica et Geodaetica, 42:2 (1998), 197–210  crossref 16

   1997
172. A. Kiraga, Z. Klos, H. Rothkaehl, Z. Zbyszynski, V.N. Oraevsky, S.A. Pulinets, I.S. Prutenski, “Estimation of electron density of ionospheric plasma using wave, impedance and topside sounder data”, Advances in Space Research, 20:4-5 (1997), 1083–1095  crossref 4
173. S.A. Pulinets, V.A. Alekseev, A.D. Legen'ka, V.V. Khegai, “Radon and metallic aerosols emanation before strong earthquakes and their role in atmosphere and ionosphere modification”, Advances in Space Research, 20:11 (1997), 2173–2176  crossref 64
174. N.A. Zabotin, D.S. Bratsun, S.A. Pulinets, R.F. Benson, “Response of topside radio sounding signals to small-scale field-aligned ionospheric irregularities”, Journal of Atmospheric and Solar-Terrestrial Physics, 59:17 (1997), 2231–2246  crossref 8
175. N. Shutte, I. Prutensky, S. Pulinets, Z. Klos, H. Rothkaehl, “The charged-particle fluxes at auroral and polar latitudes and related low-frequency auroral kilometric radiation-type and high-frequency wideband emission”, Journal of Geophysical Research A: Space Physics, 102:A2 (1997), 2105–2114
176. V.V. Fomichev, V.N. Oraevsky, S.A. Pulinets, I.S. Prutensky, R.V. Gorgutsa, Z. Klos, A. Kiraga, H. Rothkaehl, A. Krüger, J. Hildebrandt, H. Aurass, A. Klassen, G. Mann, “The sors experiment in the CORONAS-I project: Some results”, Solar Physics, 171:1 (1997), 221–224  crossref

   1996
177. N.I. Izhovkina, A.T. Karpachev, S.A. Pulinets, “Structural peculiarities of the daytime topside ionosphere from the measurements onboard the satellite Intercosmos-19”, Cosmic Research, 34:2 (1996), 114–118

   1995
178. T.L. Gulyaeva, K. Barbatsi, J. Boska, G. de Franceschi, S.S. Kouris, S. Moraitis, S. Pulinetz, S.M. Radicella, I. Stanislawska, Th. Xenos, M.-L. Zhang, “Definition of disturbance and quietness with topside ionosonde data”, Advances in Space Research, 16:1 (1995), 143–146  crossref 1
179. A. Kiraga, Z. Klos, V.N. Oraevsky, S.A. Pulinets, V.C. Dokukin, E.P. Szuszczewicz, “Estimation of plasma density from wave data of cold electron plasma”, Advances in Space Research, 15:12 (1995), 143–146  crossref 3
180. A.T. Karpachev, G.F. Deminova, S.A. Pulinets, “Ionospheric changes in response to IMF variations”, Journal of Atmospheric and Terrestrial Physics, 57:12 (1995), 1415–1432  crossref 8
181. A. Kiraga, Z. Klos, V.N. Oraevsky, V.C. Dokukin, S.A. Pulinets, “Observation of fundamental magnetoplasma emissions excited in magnetosphere by modulated electron beams”, Advances in Space Research, 15:12 (1995), 21–24  crossref 6

   1993
182. H. Rothkaehl, Z. Klos, A. Kiraga, S.A. Pulinets, “The H.F. noises as indicator of the ionospheric trough location”, Advances in Space Research, 13:4 (1993), 127–130  crossref 3

   1992
183. P.F. Denisenko, N.A. Zabotin, D.S. Bratsun, S.A. Pulinets, “The global distribution of ionospheric small-scale irregularities from topside sounding data”, Journal of Atmospheric and Terrestrial Physics, 54:10 (1992), 1303–1309  crossref 4

   1990
184. Z. Klos, A. Kiraga, S.A. Pulinets, “Broad-band hectometric emission in the topside ionosphere created by ground-based transmitters”, Advances in Space Research, 10:7 (1990), 177–180  crossref 5
185. S.A. Pulinets, A. Kiraga, Z. Klos, “Ionospheric mapping using satellite data of natural HF noise”, Advances in Space Research, 10:8 (1990), 71–74  crossref 1
186. N.P. Benkova, M.G. Deminov, A.T. Karpachev, N.A.  Kochenova, Yu.V. Kusnerevsky, V.V. Migulin, S.A. Pulinets, M.D. Fligel, “Longitude features shown by topside sounder data and their importance in ionospheric mapping”, Advances in Space Research, 10:8 (1990), 57–66  crossref 15
187. F.K. Shuiskaya, Yu.I. Galperin, A.A. Serov, N.V. Baranets, Yu.V. Kushnerevsky, G.V. Vasil'ev, S.A. Pulinets, M.D. Fligel, V.V. Selegey, “Resonant heating of the ionospheric plasma by powerful radiopulses aboard the Intercosmos-19 and Cosmos-1809 satellites”, Planetary and Space Science, 38:2 (1990), 173–180  crossref 20
188. S.A. Pulinets, V.V. Selegey, “Stimulated plasma resonances as an indicator of near-satellite plasma modification by powerful radio emission”, Advances in Space Research, 10:7 (1990), 169–172  crossref 1
189. Z. Klos, A. Kiraga, H. Rothkaehl, S.A. Pulinets, “Upper hybrid resonance related to a conducting satellite moving through the ionosphere”, Advances in Space Research, 10:7 (1990), 173–175  crossref

   1987
190. A. Kiraga, Z. Klos, H. Rothkaehl, S. Pulinets, “Some type of broad-band emission in the hectometric frequency range observed within the ionosphere”, Physica Scripta, 35:6 (1987), 895–898  crossref 3

   1986
191. S.A. Pulinets, V.V. Selegey, “Ionospheric plasma modification in the vicinity of a spacecraft by powerful radio pulses in topside sounding”, Journal of Atmospheric and Terrestrial Physics, 48:2 (1986), 149–157  crossref 25

   1985
192. K.I. Gringauz, N.I. Izhovkina, S.A. Pulinets, N.M. Shyutte, “Mechanisms of emission and transformation of whistler-frequency waves observed in the experiment with injection of electron pulses into the ionosphere (ARAKS)”, Cosmic Research (English translation of Kosmicheskie Issledovaniya), 23:3 (1985), 391–394
193. S.A. Pulinets, V.V. Selegei, “Modification of the ionospheric plasma near an artificial earth satellite during external probing of the ionosphere by powerful radio pulses”, Cosmic Research (English translation of Kosmicheskie Issledovaniya), 23:1 (1985), 95–104

   1983
194. K.I. Gringauz, N.M. Schutte, N.I. Izhovkina, S.A. Pulinets, “On the stimulated precipitation of electrons and the mechanism of wave generation in the whistler range in the 'ARAKS' experiment”, ESA SP, 195, European Space Agency, 1983, 137–140

   1981
195. Yu.V. Kushnerevsky, S.A. Pulinets, “The waves observed in the ARAKS-East experiment”, Advances in Space Research, 1:2 (1981), 97–101  crossref 2
196. M. Dechambre, J. Lavergnat, I.A. Zhulin, Yu.V. Kushnerevsky, S.A. Pulinets, V.V. Selegei, “The waves observed in the ARAKS-North Experiment”, Advances in Space Research, 1:2 (1981), 89–95  crossref 4

   1980
197. Sergey Pulinets, “On the mechanism of whistler-frequency emission in the ARAKS experiments”, Annales de Geophysique, 1980
198. K. I. Gringauz, L. P. Smirnova, N. M. Shiutte, N. I. Izhovkina, S. A. Pulinets, I. A. Zhulin, H. Reme, A. Saint-Marc, J. M. Vigo, “Strong wave-particle effects during downward energetic electron injections into the ionosphere”, Annales de Geophysique, 36, sep (1980), 371–373  adsnasa
199. J. Lavergnat, M. Dechambre, R. Pellat, Iu. V. Kushnerevskii, S. A. Pulinets, “Waves observed by the Araks experiments - Generalities”, Annales de Geophysique, 36, sep (1980), 323–332  adsnasa
200. M. Dechambre, J. Lavergnat, Iu. V. Kushnerevskii, S. A. Pulinets, V. V. Selegei, R. Pellat, “Waves observed by the Araks experiments - The whistler mode”, Annales de Geophysique, 36, sep (1980), 341–349  adsnasa

   1978
201. G.A. Gusev, I.A. Zhlin, Yu.V. Kushnerevsky, V.V. Migulin, S.A. Pulinets, “Broad-band wave measurements in the araks experiment”, Space Sci. Instrum., 4:2-3 (1978), 171–176

   1975
202. K.D. Egorov, V.P. Kandidov, S.A. Pulinets, “Analog computer study of elastic helicopter blade flutter”, Sov. Aeronaut., 18:4 (1975), 54–59

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