Õàðàêòåðèñòèêè ôîðáóø-ýôôåêòîâ è èõ ñâÿçü ñ ñîëíå÷íûìè, ìåæïëàíåòíûìè è ãåîìàãíèòíûìè âîçìóùåíèÿìè
– 2000. – V. 93. – P. 55–77.
66. Cane H.V., Richardson I.G. Interplanetary coronal mass ejections in the near-Earth solar wind during 1996-2002 // J. Geophys. Res. – 2003. – V. 108. – CiteID 1156, DOI: 10.1029/2002JA009817.
67. Carmichael H., Shea M.A., Smart D.F., McCall J.R. Geographically smoothed geomagnetic cutoffs // Canadian J. Phys. – 1969. – V. 47. – P. 2067–2072.
68. Chertok I.M., Grechnev V.V. Large-scale activity in the Bastille day solar event // Solar Phys. – 2005. – V. 229. – P. 95–114.
69. Chertok I.M., Grechnev V.V., Uralov A.M. Large-scale phenomena on the Sun associated with the eruption of filaments outside active regions: the event of September 12, 1999 // Astron. Rep. – 2009. – V. 53. – P. 355–368.
70. Chertok I.M., Grechnev V.V., Belov A.V., Abunin A.A. Magnetic flux of EUV arcade and dimming regions as a relevant parameter for early diagnostics of solar eruptions – sources of non-recurrent geomagnetic storms and Forbush decreases // Solar Phys. – 2013. – V. 282. – P. 175–199.
71. Chilingarian A., Bostanjyan, N. On the relation of the Forbush decreases detected by ASEC monitors during the 23rd solar activity cycle with ICME parameters // Adv. Space Res. – 2010. – V. 45. – P. 614–621.
72. Clem J.M., Dorman L.I. Neutron Monitor Response Functions // Space Sci.
Rev. – 2000. – V. 93. – P. 335–359.
73. Cliver E.W., Cane H.V. The angular extents of solar/ interplanetary disturbances and modulation of galactic cosmic rays // J. Geophys. Res. – 1996. – V.
101. – P. 15533–15546.
74. Cliver E.W., Svalgaard L. The 1859 solar-terrestrial disturbance and the current limits of extreme space weather activity // Solar Phys. – 2004. – V. 224. – P.
407–422.
75. Crooker N.U., Cliver E. W. Postmodern view of M-regions // J. Geophys.
Res. – 1994. – V. 99. – P. 23383–23388.
76. Delaboudiniere J.-P., Artzner G.E., Brunaud J. et al. EIT: extreme-ultraviolet imaging telescope for the SOHO mission // Solar Phys. – 1995. – V. 162. – P. 291– 312.
77. Demoulin P.A review of the quantitative links between CMEs and magnetic clouds // Ann. Geophys. – 2008. – V. 26. – P. 3113–3125.
78. Dorman L.I. Cosmic ray variation and space research. Ìoscow: ÀN USSR.
– 1963. – 1027 p.
79. Dorman L.I., Fedchenko S.G., Granitsky L.V., Rishe G.A. Coupling and barometer coefficients for measurements of cosmic ray variations at altitudes of 260mb // Proc. 11-th Int. Cosmic Ray Conf., Budapest. – 1970. – V. 29. – P. 233– 236.
80. Dorman L.I. Cosmic rays: variations and space explorations. Amsterdam:
North-Holland. – 1974. – 675 p.
81. Dorman L.I. Cosmic rays in magnetospheres of the Earth and other planets.
Springer Science+Business Media B.V. – 2009. – 800 p.
82. Dorman L.I. Cosmic rays in the Earth's atmosphere and underground.
Springer. – 2010. – 862 p.
83. Duldig M. Muon Observations // Space Sci. Rev. – 2000. – V. 93. – P. 207– 226.
84. Dumbovi M., Vrnak B., alogovi J., Karlica M. Cosmic ray modulation by solar wind disturbances // Astronomy & Astrophysics. – 2011. – V. 531. – A91, DOI: 10.1051/0004-6361/201016006.
85. Dumbovi M., Vrnak B., alogovi J., upan R. Cosmic ray modulation by different types of solar wind disturbances // Astronomy & Astrophysics. – 2012. – V.
538. – A28, DOI: 10.1051/0004-6361/201117710.
86. Esser R., Habbal S.R. Coronal holes and the solar wind in cosmic winds and the heliosphere // Ed. J.R. Jokipii, C.P. Sonett, M.S. Giampapa. U. Tucson, AZ.:
Arizona Press. – 1997. – P. 297.
87. Fan C.Y., Meyer P., Simpson J.A. Cosmic radiation intensity decreases observed at the earth and in the nearby planetary medium // Space Phys. Rev. Lett. – 1960. – V. 4. – P. 421–423.
88. Fan C.Y., Meyer P., Simpson J.A. Rapid reduction of cosmic ray intensity measured in Interplanetary // Space Phys. Rev. Lett. – 1960. – V. 5. – P. 269–271.
89. Forbush S.E. On the effects in the cosmic-ray intensity observed during the recent magnetic storm // Phys. Rev. – 1937. – V. 51. – P. 1108–1109.
90. Fushishita A., Kuwabara T., Kato C. et al. Precursors of the Forbush decrease on 2006 December 14 observed with the Global Muon Detector Network (GMDN) // Astrophys. J. – 2010. – V. 715. – P. 1239–1247.
91. Gonzalez W.D., Tsuritani B.T., McIntosh P.S., A.L. Clua de Gonzalez.
Coronal hole-active region-current sheet (CHARCS) association with intense interplanetary and geomagnetic activity // Geophys. Res. Lett. – 1996. – V. 23. – N.
19. – P. 2577–2581.
92. Gopalswamy N., Lara A., Yashiro S., Kaiser M.L., Howard R.A. Predicting the 1-AU arrival times of coronal mass ejections // J. Geophys. Res. – 2001. – V. 106.
– P. 29207–29218.
93. Gopalswamy N., Lara A., Yashiro S., Nunes S., Howard R.A. Coronal mass ejection activity during solar cycle 23 // Int. Solar Cycle Studies (ISCS) Symp., Tatranska Lomnica. – 2003. – P. 403–414.
94. Gopalswamy N., Yashiro S., Krucker S., Stenborg G., Howard R.A.
Intensity variation of large solar energetic particle events associated with coronal mass ejections // J. Geophys. Res. – 2004. – V. 109. – Issue A12, DOI:
10.1029/2004JA010602.
95. Gopalswamy N., Yashiro S., Akiyama S. Geoeffectiveness of halo coronal mass ejections // JGR Space Physics. – 2007. – V. 112. – A06112, DOI:
10.1029/2006JA012149.
96. Gopalswamy N., Xie H. Comment on “Prediction of the 1-AU arrival times of CME-associated interplanetary shocks: Evaluation of an empirical interplanetary shock propagation model” by K.-H. Kim et al. // J. Geophys. Res. – 2008. – V. 113. – A10105, DOI: 10.1029/2008JA013030.
97. Gopalswamy N. Coronal mass ejections and space weather // Climate and Weather of the Sun-Earth system (CAWSES): selected papers from the 2007 Kyoto Symposium. Ed. by T. Tsuda, R. Fujii, K. Shibata, and M.A. Geller. TERRAPUB, Tokyo. – 2009. – P. 77–120.
98. Gopalswamy N., Yashiro S., Michalek G., Stenborg G., Vourlidas A., Freeland S., Howard R. The SOHO/LASCO CME catalog // Earth, Moon and Planets. – 2009. – V. 104. – P. 295–313.
99. Gopalswamy N. Corona mass ejections: a summary of recent results // Proc.
20th National Solar Physics Meeting, Slovakia. – 2010. – P. 108–130.
100. Gopalswamy N., Yashiro S., Michalek G., Xie H., Makela P., Vourlidas A., Howard R. A catalog of halo coronal mass ejections from SOHO // Sun and Geosphere. – 2010. – V. 5. – P. 7–16.
101. Gosling J.T. The solar flare myth // J. Geophys. Res. – 1993. – V. 98. – P.
18937–18950.
102. Harra L.K., Mandrini C.H., Dasso S., Gulisano A.M., Steed K., Imada S.
Determining the solar source of a magnetic cloud using a velocity difference technique // Solar Phys. – 2011. – V. 268. – P. 213–230.
103. Hatton C.J., Carmichael H. Experimental investigation of the NM- neutron monitor // Can. J. Phys. – 1964. – V. 42. – P. 2443–2472.
104. Haurwitz M.W., Yoshida S., Akasofu S.I. Interplanetary magnetic field asymmetries and their effects on polar cap absorption events and Forbush decreases // J. Geophys. Res. – 1965. – V. 70. – P. 2977–2988.
105. Hess V.F., Demmelmair A. World-wide effects in cosmic ray intensity, as observed during a recent magnetic storm // Nature. – 1937. – V. 140. – P. 316–317.
106. Hess W.N., Patterson H.W., Wallace R. Cosmic ray neutron energy spectrum // Phys. Rev. – 1959. – V. 116. – P. 445–457.
107. Hudson H.S., Cliver E.W. Observing coronal mass ejections without coronagraphs // J. Geophys. Res. – 2001. – V. 106. – P. 25199–25214.
108. Iucci N., Parisi M., Storini M., Villoresi G. Forbush decreases: origin and development in the interplanetary space // Nuovo Cimento C. – 1979. – V. 2C. – P.
1–52.
109. Iucci N., Parisi M., Storini M., Villoresi G. High speed solar wind streams and galactic cosmic ray modulation // Nuovo Cimento C. – 1979. – V. 2C. – P. 421– 438.
110. Iucci N., Parisi M., Storini M., Villoresi G. Interplanetary disturbances during Forbush decreases // Nuovo cimento C. – 1984. – V. 7. – P. 467–488.
111. Iucci N., Parisi M., Storini M., Villoresi G., Pinter S. Longitudinal dependence of the interplanetary perturbation produced by energetic type 4 solar flares and of the associated cosmic ray modulation // Proc. 19th Int. Cosmic Ray Conf., La Jolla. – 1985. – V. 5. – P. 234–237.
112. Iucci N., Pinter S., Parisi M., Storini M., Villoresi G. The longitudinal Asymmetry of the interplanetary perturbation producing Forbush decreases // Nuovo Cimento C. – 1986. – V. 9C. – P. 39–50.
113. Jamsen T., Usoskin I.G., Raiha T., Sarkamo J., Kovaltsov G.A. Case study of Forbush decreases: energy dependence of the recovery // Adv. Space Res. – 2007.
– V. 40. – P. 342–347.
114. Jordan A.P., Spence H.E., Blake J.B., Shaul D.N.A. Revisiting two-step Forbush decreases // J. Geophys. Res. – 2011. – V. 116. – A11103, DOI:
10.1029/2011JA016791.
115. Kahler S. The morphological and statistical properties of solar X-ray events with long decay times // Astrophys. J. – 1977. – V. 214. – P. 891–897.
116. Kaiser M.L., Kucera T.A., Davila J.M., St. Cyr O.C., Guhathakurta M., Christian E. The STEREO mission: an introduction // Space Sci. Rev. – 2008. – V.
136. – P. 5–16.
117. Kang S.-M., Moon Y.-J., Cho K.-S., Kim Y.-H., Park Y.D., Baek J.-H., Chang, H.-Y. // J. Geophys. Res. – 2006. – V. 111. – DOI: 10.1029/2005JA011445.
118. Kim K.-H., Moon Y.-J., Cho K.-S. Prediction of the 1-AU arrival times of CME-associated interplanetary shocks: Evaluation of an empirical interplanetary shock propagation model // J. Geophys. Res. – 2007. – V. 112. – A05104, DOI:
10.1029/2006JA011904.
119. Kim R.-S., Cho K.-S., Moon Y.-J., Dryer M., Lee J., Yi Y., Kim K.-H., Wang H., Park Y.-D., Kim Y.H. An empirical model for prediction of geomagnetic storms using initially observed CME parameters at the Sun // J. Geophys. Res. – 2010. – V. 115. – A12108, DOI: 10.1029/2010JA015322.
120. Kitamura M. On the close correlation between the cosmic ray storm and the «SC-type» magnetic storm // Reports Ionos. Res. Japan. – 1954. – V. 8. – P. 145–148.
121. Kota J., Jokipii J.R. The role of corotating interaction regions in cosmic-ray modulation // Geophys. Res. Lett. – 1991. – V. 18. – P. 1797–1800.
122. Krivosheeva M.A., Abunin A.A., Belov A.V., Eroshenko E.A., Oleneva V.A., Yanke V.G., Osipenko A.S. Relation of the Forbush-effect parameters to the heliolongitude of the solar sources // Proc. 32nd Int. Cosmic Ray Conf., Beijing. – 2011. – V. 10. – P. 274-277.
123. Krymsky G.F. Diffusion mechanism of cosmic-ray daily variation // Proc.
9th Int. Cosmic Ray Conf., London. – 1966. – V. 1. – P. 197.