Труды КНЦ вып.5. ГЕЛИОГЕОФИЗИКА. 8/2019(10)

11. Impact of powerful volcanic eruptions and solar activity on the climate above the Arctic Circle / E. A. Kasatkina et al. // Geofisica Int. 2018. 57. P. 317-333. 12. McCracken K. G., Beer J. The annual cosmic-radiation intensities 1391-2014; the annual heliospheric magnetic field strengths 1391-1983, and identification of solar cosmic-ray events in the cosmogenic record 1800-1983 // Solar Phys. 2015. 290. P. 3051-3069. 13. The persistence of solar activity indicators and the descent of the Sun into Maunder Minimum conditions / M. Lockwood et al. //Geophys. Res. Lett. 2011. 38. L22105. 14. Abdussamatov H. I. Grand Minimum of the total solar irradiance leads to the Little Ice Age / / J. Geol. Geosci. 2011. 2. P. 113. 15. Lockwood М., Frohlich C. Recent oppositely directed trends in solar climate forcings and the global mean surface air temperature //Proc. R. Soc. 2007. A. 463. P. 2447-2460. 16. Lean J. R., Beer J., Bradley R. Reconstruction of solar irradiance since 1610, Implications for climate change // Geophys. Res. Lett. 1995. 22. P. 3195-3198. 17. Haigh J. D. The impact of solar variability on climate // Science. 1996. 272. P. 981- 984. 18. Tinsley B. A., Deen G. W. Apparent tropospheric response to MeV-GeV particle flux variations: a connection via electrofreezing of supercooled water in high-level clouds? // J. Geophys. Res. 1991. 96. P. 22283-22296. 19. Svensmark H., Friis-Christensen E. Variation of cosmic ray flux and global cloud coverage - a missing link in Solar-climate relationships / / J. Atm. Terr. Phys. 1997. 59. P. 1225-1232. 20. Palle E., Butler J. Sunshine records from Ireland, cloud factors and possible links to solar activity and cosmic rays // Int. J. Climat. 2001. 21. P. 709-729. 21. Use of Be-10 in polar ice to trace the 11-year cycle of solar activity / J. Beer etal. //Nature. 1990. 347. P. 164-166. 22. Lockwood М., Stamper R. Long-term drift of the coronal source magnetic flux and the total solar irradiance // Geophys. Res. Lett. 1999. 26. P. 2461-2464. 23. Richardson I. G., Cane H. V. Sources of geomagnetic activity during nearly three solar cycles (1972-2000) // J. Geophys. Res. 2002. 107. 1187. 24. Канатьев А. Г., Шумилов О. И., Касаткина Е. А. Программное обеспечение для дендрохронологических измерений // Приборы и техника эксперимента. 2014. №2. С. 127-130. 25. Cook Е. R., Kairiukstis L. Methods of Dendrochronology. Dordrecht: Kluwer Academic Publishing, 1990. 26. Holmes R. L. Computer-assisted quality control in tree-ring dating and measurement/ / Tree-Ring Bull. 1983. 44. P. 69-75. 27. Torrence C., Compo G. P. A practical guide to wavelet analysis // Bull. American Met. Soc. 1998. 79. P. 61-78. 28. Farge M. Wavelet transforms and their applications to turbulence // Annu. Rev. Fluid Mech. 1992. 24. P. 395-457. 29. Beer J., Tobias S., Weiss N. An active Sun throughout the Maunder minimum // Sol. Phys. 1998. 181. P. 237-249. 30. Usoskin I. G., Mursula K., Kovaltsov G. A. Heliospheric modulation of cosmic rays and solar activity during the Maunder minimum // J. Geophys. Res. 2001. 106. P. 16039-16046. 98