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References
|
Aslam OPM, Badruddin (2015). Study of Cosmic Ray Modulation during the Recent Unusual Minimum and Mini Maximum of Solar Cycle 24. Accepted in Solar Physics. |
|
|
Belov AV, Drobzhev VI , Eroshenko EA, Kryakunova ON, Nikolasvskiy NF, Ynake VG, Zhantaa Sh (2004). Space weather research by means of high mountain alma-ata neutron monitor. Proceedings of the International Astronomical Union 2004(IAUS223):543-544. |
|
|
Belov AV, Eroshenko EA, Yanke VG, Antonova VI, Kryakunova ON (1999). Global and Local Indices of Cosmic Ray Activity, Proceeding of 26th International Cosmic Ray Conference 6:472-475. |
|
|
Campuzano SA, De Santis A, Pavón-Carrasco FJ, Osete ML, Qamili E (2018). New perspectives in the study of the Earth's magnetic field and climate connection: The use of transfer entropy. PLoS ONE 13(11):e0207270. |
|
|
Cane HV (2000). Coronal Mass Ejections and Forbush Decreases, Space Science Reviews 93:55. |
|
|
Cooke DJ, Humble JE, Shea MA, Smart DF, Lund N, Rasmussen IL, Byrnak B, Goret P, Petrou N (1991). On the Cosmic Ray Cutoff terminology, Il Nuovo Centimento 14C:213-234. |
|
|
Desorgher L, Kudela K, Fluckiger EO, Butikofer R, Storini M, Kalegaev V (2009). Comparison of Earth's Magnetospheric Magnetic field Models in the context of Cosmic Ray, Physics, Acta Geophysica 57(1):75-87. |
|
|
Echer E, Svalgaard L (2004). Asymmetry in the Rosenberg-Coleman effect around solar minimum revealed by wavelet analysis of the interplanetary magnetic field polarity data (1927-2002) Geophysical Research letters 31(1) 12808. |
|
|
Firoz KA (2008). On Cosmic Ray Diurnal Variations: Disturbed and Quiet days, WDS Proceedings of Contributed papers (II), Matfzy Press pp. 183-188. |
|
|
Firoz KA, Kumar DVP, Cho K-S (2010). On the relationship of cosmic ray intensity with solar interplanetary, and geophysical parameters, Astrophysics and Space Science 325:185-193. |
|
|
Forbush SE (1957). Solar Influences on Cosmic Rays. Geophysics 43:28-41. |
|
|
Forbush SE, Beach L (1967). The absolute geomagnetic field equatorial ring current, Carnigie Institution Year book 65:28-36. |
|
|
Forbush SE (1937). On the Effects in Cosmic Ray Intensity Observed During the Recent Magnetic Storm, Physical Reviews 51(12):1108. |
|
|
Frigo E, Antonelli F, da Silva DS, Lima PCM, Pacca IG, Bageston JV (2018). Effects of solar activity and galactic cosmic ray cycles on the modulation of the annual average temperature at two sites in southern Brazil. Annales Geophysicae 36:555-564. |
|
|
Gupta M, Mishra VK, Mishra AP (2006). Correlation of the long-term cosmic ray intensity variations with sunspot numbers and tilt angle. Indian Journal of Radio & Space Physics 35:387-395. |
|
|
Jokipii JR, Levy EH, Hubbard WB (1977). Effects of particle drift on cosmic-ray transport. I-General properties, application to solar modulation. The Astrophysical Journal May, 213:861-868. |
|
|
Kataoka R, Nakagawa Y, Sato T (2015). Radiation dose of aircrews during a solar proton event without ground-level enhancement, In Annales Geophysicae 33(1):75-78. |
|
|
Kudela K (2009). On Energetic Particles in Space, Acta Physica slovaca 59(5):537-652. |
|
|
Mavromichalaki H, Papaiannou A, Mariatos G, Papailiou M, Belov A, Eroshenko E, Yanke V, Stassinopoulos EG (2007). Cosmic Ray Radiation Effects on Space Environment Associated to Intense Solar and Geomagnetic activity, IEEE Transactions on Nuclear Scin 54(4):1089-1096. |
|
|
Meng CI (1979). Polar cap variations and the interplanetary Magnetic field in Akasofu S.I. (Eds), Dynamics of Magntosphere, D. Reidel Publishing Company. Dordrecht pp. 23-46. |
|
|
Mishev AL, Adibpour F, Usoskin IG, Felsberger E (2015). Computation of dose rate at flight altitudes during ground level enhancements no. 69, 70 and 71, Advances in Space Research 55:354-362. |
|
|
Mishra RK, Mishra RA (2007). A study of daily variation in cosmic ray intensity during high/low amplitude days. Pramana - Journal of Physics 68(3):407. |
|
|
Okpala KC, Okeke FN, Ugwuoke AI (2015). Cosmic ray modulation in high and Mid latitudes during solar cycles 22 and 23, Canadian Journal of Physics 93(1):100-104. |
|
|
Okpala KC, Okeke FN (2011). Investigation of diurnal and seasonal galactic cosmic ray variations on quiet days in two mid latitude stations. Astroparticle Physics 34(12):878-885. |
|
|
Okpala KC (2014). Galactic Cosmic Ray Variability at Two Neutron Monitors: Relation to Kp Index, Journal of Astrophysics (2015):1-5. |
|
|
Papailiou M, Mavramichalaki H, Vassilaki A, Kelesidis KM, Mertzanos GA, Petropoulos B (2009). Cosmic Ray Variation of Solar Origin in relation to human Physiological State during Dec, 2016 Solar Extreme Events, Advances in Space Research 43:533-529. |
|
|
Parker EN (1965). The Passage of Energetic charged particle through interstellar space. Planet Space Science 13(1):9-49. |
|
|
Pauris E (2013). Ineffectiveness of narrow CMEs for cosmic ray modulation. Solar Physics 284(2):589-597 |
|
|
Richardson IG (2013). Geomagnetic activity during the rising phase of solar cycle 24. Journal of Space Weather and Space Climate, 3, A08. |
|
|
Thomas SR, Owen MJ, Lockwood M (2013). The 22-year hale cycle in cosmic ray flux-evidence for direct heliospheric modulation. Solar Physics 289(1):407-421. |
|
|
Usoskin IG, Gladysheva OG, Bobik P, Kudela K, Kananen H (1998). Connections between Neutron monitor count rate and solar modulation strength. Czechoslovak Journal of Physics 49(12):1743-1749. |
|
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