Olga Khabarova's Publications
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1. Dmitrieva I.V., Khabarova O.V., Ragoulskaia M.V. //Influence of natural variations of electromagnetic terrestrial field on electrical conductivity of acupunctural points.// Proceedings of the second international conference «Electromagnetic fields and human health», 1999, Moscow, p.363-364
2. Dmitrieva I.V., Obridko V.N., Khabarova O.V., Ragouskaya M.V., Reznikov A.E. Bioeffects of magnetic storms and electroacupunctural diagnostics. Proc. of VII Russian and UIC Symposium on solar-terrestrial physics, edited by V.N.Obridko. 1999, Troitsk, Russia, pp.215-221
3. Olga V.Khabarova// Resonances in alive organisms and bioeffective frequencies.// Materials of International Congress on Human Meteorology. St-Petersburg, Sept. 2000, Gidrometeoizdat, p.163-164
4. Olga V.Khabarova// On the nature of bioobjects’ leading response on magnetic storms.// Materials of International Congress on Human Meteorology. St-Petersburg, Sept. 2000, Gidrometeoizdat, p.162-163
5. Dmitrieva I.V., Khabarova O.V., Obridko V.N., Ragoulskaia M.V., Reznikov A.E. Experimental confirmations of the bioeffective influence of magnetic storms. Astronomical and Astrophysical Transactions 2000, V.19, pp.67-77
6. Ragouskaya M.V., Khabarova O.V., Dmitrieva I.V., Obridko V.N. Influence of solar disturbances on functioning and synchronization of human organism.// Online Journal of Radioelectronics by RAS. Biomedical Radioelectronics. № 10, 2000 (http://jre.cplire.ru/jre/oct00/7/text.html)
7. Khabarova Olga. The influence of cosmic weather on the Earth.// International School of Space Science. Book of Proceedings of the 10th course on “Sun-Earth Connection and Space Weather” (L’Aquila 2000), Society Italiana di Fisica, 2001, pp.56-62
8. M.V. Ragulskaya, O.V.Khabarova. Influence of solar disturbances on human organism. Biomeditsinskaja Radioelectronika 2001, no.2, pp. 5-15
9. V.Kopeykin, M.Ragulskaya, E.Rudenchik, O.Khabarova, V.Martinyuk Analysis of internal structure of time-series of acupunctural points’ conductivity measurements // Cosmos and biosphere, Partenit, Ukraine, 2001, pp.184-184
10. L.V. Dmitrieva, V.N. Obridko, M.V. Ragulskaya, A.E. Reznikov, and O.V. Khabarova Response of the human body to factors related to solar activity variations // Biophysics, V.46, n.5, 2001, pp.905-910
11. O.V. Khabarova, E.A.Rudenchik Wavelet analysis of solar wind and geomagnetic field ULF oscillations. Preprint IZMIRAN 6(1149), September 2002, Moscow
12. Olga V.Khabarova. Influence of cosmophysical factors on the biosphere. Biomeditsinskie tehnologii I radioelectronika, 2002, no 2, pp. 25-39 http://www.sciteclibrary.ru/rus/catalog/pages/4419.html
13. Olga V.Khabarova. Bioeffective frequencies and their coupling with own frequencies of alive organisms. Biomeditsinskie tehnologii I radioelectronika 2002, no.5, pp. 56-66 http://www.sciteclibrary.ru/rus/catalog/pages/4418.html
14. Khabarova O.V., Rudenchik E.A.// Coupling between changes of people health and variations of environmental parameters – reality or fiction? Statistical view. Biomeditsinskie tehnologii I radioelectronika. 2002, no. 10-11, pp. 32-41 http://www.sciteclibrary.ru/rus/catalog/pages/4466.html
15. Khabarova O.V., Rudenchik E.A.// Peculiarities of solar wind and IMF oscillatory regime’s changes before geomagnetic storms - Wavelet analysis results. Herald of the Department of Earth Sciences by Russian Academy of Sciences, № 1(21), 2003, http://files.olgakhabarova.webnode.com/200000019-44bb445b55/density_before_storms.pdf
16. O.V.Khabarova, E.A.Rudenchik, “A new Method of Magnetic Storm Medium-Term Forecast on the Base of Solar Wind Data Analysis”, Proc. of 10th Jubilee National Conference with International Participation, Bulgaria, Sofia, 2003, pp.49-52.
17. O.V.Khabarova, E.A.Rudenchik Geoeffectiveness of the solar wind changes. Principles of a new method of space weather prognosis.// Physics of solar and stellar activity - actual problems. 2003, Institute for Applied Physics RAS, Nijniy Novgorod, Russia, V.2, pp.520-523
18. M.Ragulskaya, E.Rudenchik, V.Obridko, O.Khabarova// Results of 5-years monitoring experiment on investigation of space weather influence on human organism.// Physics of solar and stellar activity - actual problems. 2003, Institute for Applied Physics RAS, Nijniy Novgorod, Russia, V.2, pp. 438-441
19. Gorgo Yu.P., Ragulskaya M.V., Khabarova O.V. The influence of low-frequency fluctuation of atmospheric pressure and geomagnetic field at functional state of people in Antarctic. // Materials of 2d Ukrainian Antarctic Conference. Kiev, Ukraine, 2004, pp.171-172
20. O.V.Khabarova, E.A.Rudenchik // New method of magnetic storm middle-term forecast on the base of solar wind data analysis. Proc. of 10th Jubilee National Conference with International Participation “Contemporary Problems of Solar-Terrestrial Influences”, Bulgary, Sofia, Nov.2003, pp.49-52
21. Olga V.Khabarova // Change of geomagnetic oscillatory regime is a possible cause of human sensitivity to “space weather”. Proc. of 10th Jubilee National Conference with International Participation “Contemporary Problems of Solar-Terrestrial Influences”, Bulgary, Sofia, Nov.2003, pp.136-139
22. O.V.Khabarova, E.A.Rudenchik // A new method of middle-term space weather forecast.// International seminar “Biological effects of solar activity”. Pushino, Russia. 2004. pp. 10-11.
23. V.Vishnevsky, M.Ragulskaya, O.Khabarova. Coupling of periodical processes in human organism, related to environmental rhythms, with interplanetary magnetic field.// The 2nd international symposium “Problems of rhythms in natural science” Moscow, 2004, pp. 84-86
24. O.Khabarova. Parametrical resonance as a possible mechanism of space weather impacts on biological objects // International seminar “Biological effects of solar activity”. Pushino, Russia. 2004, pp. 14-15
25. O.V.Khabarova// Investigation of the Tchizhevsky-Velhover effect (outstripping reaction of the biosphere on geomagnetic storms). Biophysics 2004, V.49, suppl.1, pp.S60-S67 http://files.olgakhabarova.webnode.com/200000021-3766c3860b/pre-storm_reaction-EN.pdf
26. Riazantseva, M.O., Khabarova, O.V., and Zastenker, G.N.: 2005, Sharp boundaries of solar wind plasma structures and an analysis of their pressure balance. Cosmic Res. 43, 157-164.
27. V.V. Liubimov, M.Ragulskaya, O.Khabarova Natural magnetic field impacts on biologically active points on human skin. Human organism as a magnetic storm’s detector. Medical physics. 2005. № 1. pp. 46-55.
28. Khabarova O.V., Kuzin S.V., Bogachev S.A., Pertsov A.A., Solar flux variations at 175 and 304 Å and their relation to solar wind parameters
Solar System Research. 2006. V. 40. № 4. pp. 341-347
29. Khabarova O., Pilipenko V., Engebretson M.J., and Rudenchik E., Solar wind and interplanetary magnetic field features before magnetic storm onset. Proceedings of the Eighth International Conference on Substorms (ICS-8), edited by Syrjäsuo and Donovan, University of Calgary Press, Alberta, Canada, 127-132, 2007, http://ics8.ca/proc_files/khabarova.pdf
30. N.Romanova, V.Pilipenko, N.Crosby, and O.Khabarova, ULF wave index and its possible applications in space physics. Bulgarian J.Phys.V34, 2, 2007, pp.136-148 http://www.bjp-bg.com/papers/bjp2007_2_136-148.pdf
31. Khabarova O.V., Current Problems of Magnetic Storm Prediction and Possible Ways of Their Solving. Sun and Geosphere, http://sg.shao.az/v2n1/SG_v2_No1_2007-pp-33-38.pdf , 2(1), pp. 33-38, 2007
32. M.O. Riazantseva, O.V. Khabarova, G.N. Zastenker, J.D. Richardson, Sharp boundaries of the solar wind plasma structures and their relationship to the solar wind turbulence, Advances in Space Research, V.40, N12, pp.1802-1806, 2007
33. Khabarova O.V., and Yu.I.Yermolaev Solar wind parameters' behavior before and after magnetic storms., Journal of Atmospheric and Solar-Terrestrial Physics. Volume 70, Issues 2-4, February 2008, Pages 384-390, http://dx.doi.org/10.1016/j.jastp.2007.08.024, DOI 10.1016/j.jastp.2007.08.024
34. O.Khabarova, M.Ragulskaya, E.Babayev, S.Dimitrova, S.Samsonov. Results of international experiment on investigation of environmental changes’ influence on human health. Bulletin of Russian Military-Medical Academy. Supl.2, n.3(23), pp.412-413, 2008
35. Khabarova O., Dimitrova S. Some proves of integrated influence of geomagnetic activity and weather changes on human health. Proc. of Russian-Bulgarian Conference Fundamental Space Research; Sunny Beach, Bulgaria, September 22-28, 2008 , p. 306-309 http://arxiv.org/ftp/arxiv/papers/0810/0810.0457.pdf
36. Khabarova O., Dimitrova S. On the nature of people’s reaction to space weather and meteorological weather changes. Sun and Geosphere, 4(2), pp.60-71, 2009 http://www.shao.az/SG/v4n2/SG_v4_No2_2009-p-60-71.pdf
37. "Biotropic influence of cosmic weather", Moscow-Kiev-St.Petersburg, 2010, 312 pages, ISBN 978-5-9651-0548-9
38. Khabarova Olga, and Zastenker Georgy . Sharp changes in solar wind ion flux and density within and out of current sheets. Solar Physics, 2011, Volume 270, Issue 1 (2011), Page 311-329, DOI: 10.1007/s11207-011-9719-4, http://arxiv.org/ftp/arxiv/papers/1006/1006.2487.pdf
39. Khabarova O., Savin I. and Medvedeva M. Successful modeling of the environmental changes’ influence on forests’ vegetation over North Eurasia. EPSC Abstracts, Vol. 5, EPSC2010-524, 2010, European Planetary Science Congress 2010 http://arxiv.org/ftp/arxiv/papers/1006/1006.2981.pdf
40. O.Khabarova and V.Obridko, On the nature of the in-ecliptic interplanetary magnetic field’s two-humped distribution at 1AU. Preprint IZMIRAN (2011) http://arxiv.org/ftp/arxiv/papers/1102/1102.1176.pdf , 35 pages
41. Zharkova V., O. Khabarova, Particle Acceleration in the Reconnecting Heliospheric Current Sheet: Solar Wind Data Versus 3D PIC Simulations, Astrophysical Journal, 2012, V.752, 1, 35 doi:10.1088/0004-637X/752/1/35, http://kinetics.inf.brad.ac.uk/zharkova_khabarova_The Astrophysical Journal12_solar_wind.pdf
42. Khabarova Olga, and Obridko Vladimir, Puzzles of the Interplanetary Magnetic Field in the Inner Heliosphere, 2012, Astrophysical Journal, 761, 2, 82, https://doi.org/10.1088/0004-637X/761/2/82, http://arxiv.org/pdf/1204.6672v2.pdf
43. Barlow P. W., J. Fisahn, N. Yazdanbakhsh, T. Moraes, O. V. Khabarova and C. M. Gallep. Arabidopsis thaliana root elongation growth is sensitive to lunisolar tidal acceleration and may also be weakly correlated with geomagnetic variations , 2013, Annals of Botany, 111(5), 859-872, 2013, doi: 10.1093/aob/mct052
44. Olga V. Khabarova, The interplanetary magnetic field: radial and latitudinal dependences. Astronomy Reports, 2013, Vol. 57, No. 11, pp. 844–859., DOI: 10.1134/S1063772913110024 (In Russian: AstronomicheskII zhurnal, 2013, 90, 11, 919–925, DOI: 10.7868/S0004629913110029 ), http://arxiv.org/ftp/arxiv/papers/1305/1305.1204.pdf
45. Obridko V., Ragulskaya M., Rudenchik E., Khabarova O., Hramova E., Solar activity 23-24 cycles and structure of biomedical monitoring data, Tekhnologii zhivykh sistem (Technologies of live systems, ISSN 2070-0997), 2014, 11(3), 12-22, DOI: 10.13140/2.1.2980.4167 //Обридко В.Н., Рагульская М.В., Руденчик Е.А., Хабарова О.В., Храмова Е.Г. Солнечная активность 23-24го циклов и структура биомедицинских мониторинговых данных. Технология живых систем, ISSN 2070-0997), 2014, 11(3), 12-22, DOI: 10.13140/2.1.2980.4167
46. Zank G.P., le Roux J.A., Webb G.M., Dosch A., and O. Khabarova. Particle acceleration via reconnection processes in the supersonic solar wind. The Astrophysical Journal, 797, 1, 28 (18pp), 2014, Doi:10.1088/0004-637X/797/1/28
47. Мирошниченко Л.И., Хабарова О.В., Космофизическая ситуация в эпоху Кембрийского эволюционного взрыва. Палеонтологический журнал, 2014, 48, 12, 9 //Miroshnichenko L.I. and Khabarova O.V., Cosmo-physical situation in the epoch of the Cambrian explosion. Paleontological Journal, 2014, Vol. 48, No. 14, pp. 1577–1580, DOI: 10.1134/S0031030114140093.
48. Xu F., Li G., Zhao L., Zhang Y., Khabarova O., Miao B., le Roux J., Angular distribution of solar wind vector magnetic field at 1 AU. The Astrophysical Journal, 801, 1, 58 (7pp), 2015, doi:10.1088/0004-637X/801/1/58
49. le Roux J. A., Zank G. P., Webb G. M., and Khabarova O. A kinetic transport theory for particle acceleration and transport in regions of multiple contracting and reconnecting inertial-scale flux ropes. The Astrophysical Journal, 801, 2, 112, 2015, doi:10.1088/0004-637X/801/2/112
50. Zharkova V. & Khabarova O., Re-acceleration of solar wind particles in current sheets of the heliosphere. Ann. Geophys., 33, 457–470, 2015, doi:10.5194/angeo-33-457-2015, www.ann-geophys.net/33/457/2015/, doi:10.5194/angeo-33-457-2015
51. Olga Khabarova, Igor Savin, Changes in Environmental Parameters and Their Impact on Forest Growth in Northern Eurasia. Atmospheric and Climate Sciences, 2015, 5, 2, 91-105, http://dx.doi.org/10.4236/acs.2015.52007
52. Обридко В.Н., Рагульская М.В., Хабарова О.В., Мирошниченко Л.И., Храмова Е.Г. Космические факторы эволюции биосферы: новые направления исследований. Психосоматические и интегративные исследования. 2015. Т. 1. № 1. С. 101. https://elibrary.ru/item.asp?id=27510099
53. Khabarova O., G.P. Zank, G. Li, J.A. le Roux, G.M. Webb, A. Dosch, O.E. Malandraki. Small-scale magnetic islands in the solar wind and their role in particle acceleration. 1. Dynamics of magnetic islands near the heliospheric current sheet. 2015, The Astrophysical Journal, 808, 181, https://doi.org/10.1088/0004-637X/808/2/181
54. Khabarova O. V., G. P. Zank, G. Li, J. A. le Roux, G. M. Webb, O. E. Malandraki and V. V. Zharkova, Dynamical small-scale magnetic islands as a source of local acceleration of particles in the solar wind, 2015, Journal of Physics: Conference Series, Volume 642, doi:10.1088/1742-6596/642/1/012033, http://iopscience.iop.org/1742-6596/642/1/012033
55. Zank G.P., Hunana P., Mostafavi P., le Roux J.A., Li Gang, Webb G.M. and Khabarova O., Particle acceleration by combined diffusive shock acceleration and downstream multiple magnetic island acceleration. 2015, Journal of Physics: Conference Series, Volume 642, doi:10.1088/1742-6596/642/1/012031, http://iopscience.iop.org/1742-6596/642/1/012031
56. le Roux J.A., Webb G.M., Zank G.P. and Khabarova O., Energetic Ion Acceleration by Small-scale Solar Wind Flux Ropes, 2015, Journal of Physics: Conference Series, Volume 642, doi:10.1088/1742-6596/642/1/012015, http://iopscience.iop.org/1742-6596/642/1/012015
57. Kislov R. A., O. V. Khabarova, H. V. Malova, A new stationary analytical model of the heliospheric current sheet and the plasma sheet, 2015, J. Geophys. Res. Space Physics, 120, 8210-8228, doi:10.1002/2015JA021294.
58. Zank G.P., Hunana P., Mostafavi P., le Roux J.A., Li Gang, Webb G.M., Khabarova O., Cummings A., Stone E., and Decker R., Diffusive shock acceleration and reconnection acceleration processes, 2015, The Astrophysical Journal, 814, 137, doi:10.1088/0004-637X/814/2/137
59. Zank G. P., P. Hunana, P. Mostafavi, J. A. le Roux, G. M. Webb, O. Khabarova, A. C. Cummings, E. C. Stone and R. B. Decker, Particle acceleration and reconnection in the solar wind. in AIP Conf. Proc. 1720, Solar Wind 14: Proceedings of the Fourteenth International Solar Wind Conference, ed. L. Wang et al. (New York: AIP), 2016, 1720, 070011, http://dx.doi.org/10.1063/1.4943848
60. le Roux J. A., G. P. Zank, G. M. Webb, and O. V. Khabarova (2016), Combining diffusive shock acceleration with acceleration by contracting and reconnecting small-scale flux ropes at heliospheric shocks, The Astrophysical Journal, 827, 47 (28pp), doi:10.3847/0004-637X/827/1/47
61. Khabarova O.V., G.P. Zank, G. Li, O.E. Malandraki, le Roux J.A., and Webb G.M., Small-scale magnetic islands in the solar wind and their role in particle acceleration. II. Particle energization inside magnetically confined cavities. 2016, The Astrophysical Journal, 827, 122 (21pp), doi:10.3847/0004-637X/827/2/122; http://iopscience.iop.org/article/10.3847/0004-637X/827/2/122 , doi:10.3847/0004-637X/827/2/122
62. Veselovsky I. S., R. A. Kislov, H. V. Malova, and O. V. Khabarova, 2016, The model of a collisionless current sheet in a homogeneous gravity field, Physics of Plasmas 23, 102902; doi: 10.1063/1.4964774, http://dx.doi.org/10.1063/1.4964774
63. Malova H. V., V. Yu. Popov, E. E. Grigorenko, A. A. Petrukovich, D. Delcourt, A. S. Sharma, O. V. Khabarova, and L. M. Zelenyi (2017), Evidence for quasi-adiabatic motion of charged particles in strong current sheets in the solar wind, The Astrophysical Journal, 834:34 (9pp), doi:10.3847/1538-4357/834/1/34, http://iopscience.iop.org/article/10.3847/1538-4357/834/1/34/meta
64. Olga V. Khabarova, Gary P. Zank, Olga E. Malandraki, Gang Li, Jakobus A. le Roux, Gary M. Webb. Observational Evidence for Local Particle Acceleration Associated with Magnetically Confined Magnetic Islands in the Heliosphere - a Review (2017), Sun and Geosphere, V. 12, No.1, pp.23-30, http://newserver.stil.bas.bg/SUNGEO/00SGArhiv/SG_v12_No1_2017-pp-23-30.pdf
65. Olga V. Khabarova, Helmi V. Malova, Roman A. Kislov, Lev M. Zelenyi, Vladimir N. Obridko, Alexander F. Kharshiladze, Munetoshi Tokumaru , Justyna M. Sokół, Stan Grzedzielski, and Ken’ichi Fujiki, 2017, High-latitude conic current sheets in the solar wind, The Astrophysical Journal, 836, 108, 1, https://doi.org/10.3847/1538-4357/836/1/108
66. Olga V. Khabarova, and Gary P. Zank, 2017, Energetic Particles of keV–MeV Energies Observed near Reconnecting Current Sheets at 1 AU, The Astrophysical Journal, 843, 1, 4, https://doi.org/10.3847/1538-4357/aa7686
67. Попов В.Ю., Малова Х.В., Григоренко Е.Е., Хабарова О.В., Зеленый Л.М., Петрукович А.А. Моделирование квазиадиабатической динамики плазмы в токовых слоях солнечного ветра. Ученые записки физического факультета Московского университета. 2017. № 4. С. 1740705. https://elibrary.ru/item.asp?id=32401230
68. Маевский Е.В., Кислов Р.А., Малова Х.В., Хабарова О.В., Попов В.Ю., Петрукович А.А. Моделирование магнитоплазменных структур в солнечном ветре. Ученые записки физического факультета Московского университета. 2018. № 5. С. 1850307. https://elibrary.ru/item.asp?id=36928424 (импакт 0,042)
69. Khabarova O. V., O. E. Malandraki, G. P. Zank, Gang Li, J. A. le Roux, G. M. Webb, Re-acceleration of energetic particles in large-scale heliospheric magnetic cavities, Proceedings IAU Symposium No. 335 “Space Weather in the Heliosphere: Processes and Forecasts”, (C. Foullon, & O. Malandraki, eds.), Proceedings of the International Astronomical Union, pp. 76-82, doi:10.1017/S1743921318000285 (https://doi.org/10.1017/S1743921318000285 ), 2018
70. Khabarova O.V., V. N. Obridko, R.A. Kislov, H.V. Malova, A. Bemporad, L. M. Zelenyi, V.D. Kuznetsov, A.F. Kharshiladze. Evolution of the solar wind speed with heliocentric distance and solar cycle. Surprises from Ulysses and unexpectedness from observations of the solar corona. Plasma Physics Reports, 2018, Vol. 44, No. 9, pp. 840–853, https://doi.org/10.1134/S1063780X18090064 (Russian version: Fizika Plazmi, 44, 9, P.1-15, 2018, DOI 10.1134 /S0367292118090068; ), https://www.researchgate.net/publication/327500370_Evolution_of_the_Solar_Wind_Speed_with_Heliocentric_Distance_and_Solar_Cycle_Surprises_from_Ulysses_and_Unexpectedness_from_Observations_of_the_Solar_Corona
71. Zhao L.-L., G. P. Zank, O. Khabarova, S. Du, Y. Chen, L. Adhikari, and Q. Hu, An Unusual Energetic Particle Flux Enhancement Associated with Solar Wind Magnetic Island Dynamics, The Astrophysical Journal Letters, 864:L34 (7pp), 2018, https://doi.org/10.3847/2041-8213/aaddf6
72. le Roux J. A., G. P. Zank, and O. V. Khabarova. Self-consistent Energetic Particle Acceleration by Contracting and Reconnecting Small-scale Flux Ropes: The Governing Equations. The Astrophysical Journal, 864:158 (51pp), 2018, https://doi.org/10.3847/1538-4357/aad8b3
73. Kogai T.G., O.V. Khabarova, O.V. Mingalev, Pre-storm ULF variations in the solar wind density and interplanetary magnetic field as key parameters to build a mid-term prognosis of geomagnetic storms. Proceedings of the international conference, “GRINGAUZ 100: PLASMA IN THE SOLAR SYSTEM”, Space Research Institute of RAS, Moscow, Russia, June 13–15, 2018, pp.140-143, ISBN 978-5-00015-043-6. https://www.researchgate.net/publication/327781146_Pre-storm_ULF_variations_in_the_solar_wind_density_and_interplanetary_magnetic_field_as_key_parameters_to_build_a_mid-term_prognosis_of_geomagnetic_storms
74. Malova Kh.V., V.Yu. Popov, O.V. Khabarova, E.E. Grigorenko, A.A. Petrukovich, L.M. Zeleny, Structure of Current Sheets with Quasi-Adiabatic Dynamics of Particles in the Solar Wind, Cosmic Research, 2018, 56, 6, pp. 462–470, https://doi.org/10.1134/S0010952518060060 (Малова Х.В., Попов В.Ю., Хабарова О.В., Григоренко Е.Е., Петрукович А.А., Зеленый Л.М., Структура токовых слоев с квазиадиабатической динамикой частиц в солнечном ветре. (2018). Космические исследования, т. 56, 6, с. 451-460, DOI: 10.31857/S002342060002488-4, https://elibrary.ru/item.asp?id=37023423 )
75. Maiewski E. V., R. A. Kislov, Kh. V. Malova, O. V. Khabarova, V. Yu. Popov, A. A. Petrukovich, The Solar Wind and Heliospheric Current System in the Years of Maximum and Minimum Solar Activity, Cosmic Research, 2018, 56, 6, pp. 411–419, https://doi.org/10.1134/S0010952518060059 (Маевский Е.В., Кислов Р.А., Малова Х.В., Хабарова О.В., Попов В.Ю., Петрукович А.А. Cолнечный ветер и гелиосферная токовая система в годы максимума и минимума солнечной активности (2018), Космические исследования, т. 56, 6, С. 394-403, DOI: 10.31857/S002342060002492-9, https://elibrary.ru/item.asp?id=36574455)
76. le Roux J. A., G. P. Zank, O. V. Khabarova, Investigation of different small-scale flux-rope acceleration scenarios for energetic particles in the solar wind near Earth, IOP Conf. Series: Journal of Physics: Conf. Series, 2018, 1100, 012015, doi :10.1088/1742-6596/1100/1/012015, http://iopscience.iop.org/article/10.1088/1742-6596/1100/1/012015
77. Mingalev O.V., O.V. Khabarova, H.V. Malova, I.V. Mingalev, R.A. Kislov, M.N. Melnik, P.V. Sezko, L.M. Zelenyi, G.P. Zank. Modeling of proton acceleration in a magnetic island inside the ripple of the heliospheric current sheet. Solar System Research, 2019, Vol. 53, No. 1, pp. 30–55, https://doi.org/10.1134/S0038094619010064
78. Adhikari, L., Khabarova, O., Zank, G. P. & Zhao, L.-L. 2019, The Role of Magnetic Reconnection–associated Processes in Local Particle Acceleration in the Solar Wind, The Astrophysical Journal, 873, 1, id. 72, https://doi.org/10.3847/1538-4357/ab05c6
79. Kislov R. A., O. V. Khabarova, and H. V. Malova, 2019, Quasi-stationary Current Sheets of the Solar Origin in the Heliosphere, The Astrophysical Journal, 875, 28, https://doi.org/10.3847/1538-4357/ab0dff
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