Диссертация (Особенности пространственно-временной структуры эффектов солнечной активности и вариаций космических лучей в циркуляции нижней атмосферы), страница 72
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− 403 p.345.Svensmark H. Influence of cosmic rays on Earth’s climate // Phys. Rev. Lett. − 1998. −Vol.81(22). − P.5027−5030.346.Svensmark H. Cosmic rays and Earth’s climate // Space Science Reviews. − 2000. − Vol.93. −P.175–185.347.Svensmark H., Bondo T., Svensmark J. Cosmic ray decreases affect atmospheric aerosols andclouds // Geophys. Res. Lett. − 2009. − Vol.36. −L15101. − doi:10.1029/2009GL038429.348.Svensmark H., Enghoff M. B., Pedersen J.O.P. Response of cloud condensation nuclei (> 50nm) to changes in ion-nucleation // Phys. Lett. A.
− 2013. − Vol.377. − P.2343−2347.349.Svensmark H., Friis-Christensen E. Variations of cosmic ray flux and global cloud coverage – amissing link in solar–climate relationships // J. Atmos. Sol.–Terr. Phys. − 1997. − Vol.59. − P.1225–1232.350.Svirzhevskaya A.K., Svirzhevsky N.S., Stozhkov Yu.I. Step-like variations in cosmic rays andtheir relation to an inclination of the heliospheric current sheet // Proceedings of the 27th ICRC.Hamburg. V.SH. − 2001. − P.3843−3846.351.Thejll P.
Calculation of relative vorticity and the vorticity area index from NCEP reanalysisdata. Danish Meteorological Institute Technical Report 02-26. Copenhagen. −2002.352.Thejll P., Christiansen B., Gleisner, H. On correlations between the North Atlantic Oscillation,geopotential heights, and geomagnetic activity // Geophys. Res. Lett. − 2003. − Vol.30. − 1347 −doi:10.1029/2002GL016598.353.Thomas R.J., Barth C.A., Rottman G.J., Rusch D.W., Mount G.H., et al.
Mesospheric ozonedepletion during the Solar Proton Event of July 13, 1982. Pt I: Measurement // Geophys.Res.Lett. −1983. −Vol.10 (4). − P. 253–255.354.Tinsley B.A. The solar cycle and the QBO influences on the latitude of storm tracks in theNorth Atlantic // Geophys. Res. Lett. − 1988.
− Vol.15(5). − P.409−412.355.Tinsley B.A. The global atmospheric electric circuit and its effects on cloud microphysics //Reports on Progress in Physics. − 2008. − Vol.71 (6). − P.66801-66900.316356.Tinsley B.A. A working hypothesis for connections between electrically-induced changes incloud microphysics and storm vorticity, with possible effects on circulation // Avd. Space Res.
− 2012.− Vol.50. − P.791−805.357.Tinsley B.A., Brown G.M., Scherrer P.H. Solar variability influences on weather and climate:possible connection through cosmic ray fluxes and storm intensification // J. Geophys. Res. −1989. −Vol.94. − P.14783−14792.358.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.− Vol.96. − P.22283−22296.359.Tinsley B.A., Heelis R.A.
Correlations of atmospheric dynamics with solar activity: evidencefor a connection via the solar wind, atmospheric electricity, and cloud microphysics // J. Geophys. Res.− 1993. − Vol.98. − P.10375–10384.360.Todd M., Kniveton D.R. Changes of cloud cover associated with Forbush_decreases of galacticcosmic rays // J. Geophys. Res. − 2001. − Vol.106. − P. 32031−32042.361.Todd M., Kniveton D.R., Short-term variability in satellite-derived cloud cover and galacticcosmic rays: an update // J. Atmos. Sol.-Terr.
Phys. − 2004. − Vol.66. − P.1205−1211.362.Tompson D.W.J., Wallace J.M. The Arctic Oscillation signature in the wintertime geopotentialheight and temperature fields // Geophys. Res. Lett. − 1998. − Vol.25 (9). − P.1297–1300.363.Torrence C., Compo G.P. A practical guide to wavelet analyses // Bull. Amer. Meteorol. Soc. −1998. − Vol.79.
− P.61−78.364.Troup A.J. A secular change in the relation between the sunspot cycle and temperature in thetropics // Geophys. Pure Appl. − 1962. − Vol.51 (1). − P.184−198.365.Turunen E., Verronen P.T., Seppälä A., Rodger C.J., Clilverd M.A., et al. Impact of differentenergies of precipitating particles on NOx generation in the middle and upper atmosphere duringgeomagnetic storms // J. Atmos.
Sol.-Terr. Phys. − 2009. − Vol.71. − P.1176–1189.366.Tyasto M.I., Danilova O.A., Ptitsyna N.G., Sdobnov V.E. Variations in cosmic ray cutoffrigidities during the great geomagnetic storm of November 2004 // Adv. Space Res. − 2013. −Vol.51(7). − P.1230−1237.367.Usoskin I.G., Kovaltsov G.A.
Cosmic rays and climate of the Earth: possible connection //Comptes Rendus Geoscience. − 2008. − Vol.340. − P.441− 450.368.Van Allen J.A., Frank L.A. Radiation around the Earth to a radial distance of 107,400 km //Nature. − 1959. − Vol.183. − P.430−434.369.van Loon H., Labitzke K. Associations between the 11-year solar cycle, the QBO and the317atmosphere. Part III: Surface and 700 mb in the Northen hemisphere in winter // J.Clim. − 1988.
−Vol.1. − P.905−920.370.Veretenenko S.V. Influence of helio/geophysical phenomena on the solar radiation input to thelower atmosphere // Adv. Space Res. − 2003. − Vol. 31. − P.1007–1012.371.Veretenenko S.V., Dergachev V.A., Dmitriyev P.B. Long-term variations of the surfacepressure in the North Atlantic and possible associations with solar activity and galactic cosmic rays //Adv. Space Res. − 2005. − Vol. 35(3). − P.484−490.372.Veretenenko S.V., Dergachev V.A., Dmitriyev P.B. Solar rhythms in the characteristics of theArctic frontal zone in the North Atlantic // Adv.Space Res. − 2010.
− Vol.45. − P. 391–397.373.Veretenenko S.V., Ogurtsov M.G. Long-term variations of solar activity effects on theatmospheric circulation // В сб.: “Циклы активности на Солнце и звездах” (Ред. В.Н. Обридко иЮ.А. Наговицын). СПб: Изд-во ВВМ, 2009. − С.241-250.374.Veretenenko S., Ogurtsov M. Regional and temporal variability of solar activity and galacticcosmic ray effects on the lower atmosphere circulation // Adv.
Space Res. − 2012a. −Vol.49 (4). −P.770−783.375.Veretenenko S.V., Ogurtsov M.G. Stratospheric circumpolar vortex as a link between solaractivity and circulation of the lower atmosphere // Geomagnetism and Aeronomy. − 2012б. − Vol.52(7). − P.937−943.376.Veretenenko S.V., Ogurtsov M.G. The polar vortex evolution as a possible reason for thetemporal variability of solar activity effects on the lower atmosphere circulation // Proceedings of the9th International Conference “Problems of Geocosmos” (St.Petersburg, Petrodvorets, October 8-12,2012). Eds: V.N.
Troyan, V.S. Semenov and M.V. Kubyshkina. SPb. − 2012в. − P.416-421.377.Veretenenko S.V., Ogurtsov M.G. The stratospheric polar vortex as a cause for the temporalvariability of solar activity and galactic cosmic ray effects on the lower atmosphere circulation // IOPPublishing.
J. Phys: Conf. Ser. −2013. − Vol.409. − 012238. − doi:10.1088/1742-6596/409/1/012238378.Veretenenko S., Ogurtsov M. “Stratospheric polar vortex as a possible reason for temporalvariations of solar activity and galactic cosmic ray effects on the lower atmosphere circulation” // Adv.Space Res. − 2014. − Vol.54 (12). − P.2467−2477.379.Veretenenko S.V., Ogurtsov M.G. Low Clouds and Cosmic Rays: Possible Reasons forCorrelation Changes// Sun and Geosphere. − 2015. − Vol.10 (1).
−P.51−58.380.Veretenenko S.V., Ogurtsov M.G. Cloud anomalies at midlatitudes of the Northern andSouthern hemispheres: Connection with atmospheric dynamics and variations in cosmic rays //Geomagnetism and Aeronomy. − 2016а. − Vol.56 (8) − P.1110−1117.381.Veretenenko S., Ogurtsov M. Cloud cover anomalies at middle latitudes: Links to troposphere318dynamics and solar variability // J. Atmos.
Sol.-Terr. Phys. − 2016б. − V.149. − P.207−218.382.Veretenenko S.V., Pudovkin M.I. Effects of the galactic cosmic ray variations on the solarradiation input in the lower atmosphere // J. Atmos. Sol.-Terr. Phys. − 1997. − Vol.59 (14). − P.1739–1746.383.Veretenenko S.V., Pudovkin M.I. Variations of solar radiation input to the lower atmosphereassociated with different helio/geophysical factors // J.Atm.Sol.-Terr.Phys. − 1999.
− Vol.61 (7). −P.521−529.384.Veretenenko S.V., Pudovkin M.I. Latitudinal dependence of the helio/geophysical effects onthe solar radiation input to the lower atmosphere // J. Atm. Sol.-Terr. Phys. − 2000. − Vol.62(7). −P.567−571.385.Veretenenko S.V., Thejll P. Effects of solar cosmic ray bursts on the meteorologicalcharacteristics of the lower atmosphere in the North Atlantic / В: “Активные процессы на Солнце ив звездах”. Труды научной конференции стран СНГ и Прибалтики. Санкт-Петербург, 1-6 июля2002 г." (Ред. Зайцев В.В., Яснов Л.В.).
Санкт-Петербург, 2002. − C.152−155.386.Veretenenko S.V., Thejll P. Influence of solar cosmic ray bursts on the cyclone evolution in theNorth Atlantic // Труды VII Пулковской международной конференции по физике Солнца“Климатические и экологические аспекты солнечной активности” (Санкт-Петербург, ГАО РАН,7-11 июня 2003 г.) СПб: ГАО РАН. − 2003. − С. 77−82.387.Veretenenko S., Thejll P. Effects of energetic Solar Proton Events on the cyclone developmentin the North Atlantic // J.Atmos.Sol.-Terr.Phys. − 2004a. − Vol.66 (5). − P.393−405.388.Veretenenko S.V., Thejll P.
Effects of energetic solar proton events on the cyclone regenerationin the North Atlantic // Proceedings of the 5th International Conference "Problems of Geocosmos",St.Petersburg, Petrodvorets, May 24-28 2004 (Eds. A.A. Kovtun et al.) St.Petersburg. − 2004b. −P.384−388.389.Veretenenko S.V., Thejll P.
Cyclone regeneration in the North Atlantic intensified by energeticsolar proton events // Adv. Space Res. − 2005. − Vol. 35(3). − P.470−475.390.Veretenenko S.V., Thejll P. Effects of cosmic ray variations on the cyclone development in theNorth Atlantic // Proceedings of the YIth International Conference "Problems of Geocosmos". St.Petersburg, 23-27 May 2006. (Eds. V.N. Troyan, V.S. Semenov and M.V. Kubyshkina). St.Petersburg.− 2006 − P.198−205.391.Veretenenko S.V., Thejll P. Variations of extratropical cyclonic activity in the Northern andSouthern hemispheres associated with energetic solar proton events // Proceedings of the 9thInternational Conference “Problems of Geocosmos”.