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The patterns of the twenty two-year cycle of solar activity in sunspots statistics and in the global magnetic field and activity distributionBUMBA, V.Bulletin of the Astronomical Institutes of Czechoslovakia. 1989, Vol 40, Num 1, pp 17-23, issn 0004-6248Article
Modèle du cycle de 22 ans de l'activité solaire dans le cadre de la théorie dynamo en tenant compte du champ primairePUDOVKIN, M. I; BENEVOLENSKAYA, E. E.Astronomičeskij žurnal. 1984, Vol 61, Num 4, pp 783-788, issn 0004-6299Article
The 22-year variation of geomagnetic activity : implications for the polar magnetic field of the SunRUSSELL, C. T; MULLIGAN, T.Geophysical research letters. 1995, Vol 22, Num 23, pp 3287-3288, issn 0094-8276Article
Numerical modeling of the 22-year variation of the cosmic ray intensity and anisotropyKADOKURA, A; NISHIDA, A.JGR. Journal of geophysical research. Part A, Space physics. 1986, Vol 91, Num 1, pp 1-11Article
Annual and solar rotation periodicities in IMF components: Evidence for phase/frequency modulationTAKALO, J; MURSULA, K.Geophysical research letters. 2002, Vol 29, Num 9, pp 31.1-31.4, issn 0094-8276Article
A new technique for comparing solar dynamo models and observationsMININNI, P. D; GOMEZ, D. O.Astronomy and astrophysics (Berlin. Print). 2004, Vol 426, Num 3, pp 1065-1073, issn 0004-6361, 9 p.Article
22 year solar modulation of Earth's northern hemisphere temperaturesBARANYI, T; LUDMANY, A; COFFEY, H et al.Geophysical research letters. 1998, Vol 25, Num 13, pp 2269-2272, issn 0094-8276Article
SOLAR LUMINOSITY AND THE SUNSPOT CYCLEDICKE RH.1979; NATURE; GBR; DA. 1979; VOL. 280; NO 5717; PP. 24-27; BIBL. 32 REF.Article
TWENTY-TWO YEAR MODULATION OF COSMIC RAYS ASSOCIATED WITH POLARITY REVERSAL OF POLAR MAGNETIC FIELD OF THE SUNNAGASHIMA K; MORISHITA I.1980; PLANET. SPACE SCI.; GBR; DA. 1980; VOL. 28; NO 2; PP. 195-205; BIBL. 37 REF.Article
CYCLE DE 22 ANS DANS L'INTENSITE DES RAYONS COSMIQUES GALACTIQUESKRAJNEV MB; STOZHKOV YU I.1979; IZV. AKAD. NAUK SSSR, SER. FIZ.; ISSN 0367-6765; SUN; DA. 1979; VOL. 43; NO 12; PP. 2603-2608; BIBL. 18 REF.Article
ORIGIN OF THE TWENTY YEAR WAVE IN THE DIURNAL VARIATION.LEVY EH.sdIN: INT. COSMIC RAY CONF. 14; MUENCHEN; 1975; MUENCHEN; MAX PLANCK INST.; DA. S.D.; VOL. 4; PP. 1215-1220; BIBL. 16 REF.Conference Paper
PROGRESSIVE DIPOLE WAVES AS THE CONSTITUENTS OF THE 22-YEAR MAGNETIC CYCLECSADA IK.1978; SOLAR PHYS.; NLD; DA. 1978; VOL. 58; NO 2; PP. 423-427; BIBL. 3 REF.Article
The Solar DynamoWEISS, N. O; THOMPSON, M. J.Space science reviews. 2009, Vol 144, Num 1-4, pp 53-66, issn 0038-6308, 14 p.Conference Paper
Latitude-time distribution of 3 types of magnetic field activity in the global solar cycleCALLEBAUT, D. K; MAKAROV, V. I.Solar physics. 1992, Vol 141, Num 2, pp 381-390, issn 0038-0938Article
The 22-year cycle of the SunKUNDT, W.Astrophysics and space science. 1992, Vol 187, Num 1, pp 75-85, issn 0004-640XArticle
Wave driven non-linear flow oscillator for the 22-year solar cycleMAYR, Hans G; WOLFF, Charles L; HARTLE, Richard E et al.Geophysical research letters. 2001, Vol 28, Num 3, pp 463-466, issn 0094-8276Article
Rigidity dependence of the 11-year variation of the cosmic ray intensity from 0.6 to 50 GV at the Earth in two 22-year cyclesLOCKWOOD, J. A; DEBRUNNER, H.Journal of geophysical research. 2002, Vol 107, Num A8, pp SSH5.1-SSH5.11, issn 0148-0227Article
Modelling of capillary tubes behaviour with HCFC 22 ternary alternative refrigerantsSAMI, S. M; POIRIER, B; DAHAMANI, A. B et al.International journal of energy research. 1998, Vol 22, Num 9, pp 843-855, issn 0363-907XArticle
Observations of the Sun's magnetic field during the recent solar maximumSANDERSON, T. R; APPOURCHAUX, T; HOEKSEMA, J. T et al.Journal of geophysical research. 2002, Vol 108, Num A1, pp SSH7.1-SSH7.10, issn 0148-0227Article
An experimental study of evaporation heat transfer of refrigerant HCFC22 inside an internally grooved horizontal tubeFUJII, T; KOYAMA, S; INOUE, N et al.JSME international journal. Series B, fluids and thermal engineering. 1995, Vol 38, Num 4, pp 618-627, issn 1340-8054Article
Long-term variability of solar magnetic fieldsTODD HOEKSEMA, J; SCHERRER, P. H.Advances in space research. 1988, Vol 8, Num 7, pp 177-183, issn 0273-1177Conference Paper
Controlled Warming Effects on Wheat Growth and Yield: Field Measurements and ModelingGRANT, R. F; KIMBALL, B. A; CONLEY, M. M et al.Agronomy journal (Print). 2011, Vol 103, Num 6, pp 1742-1754, issn 0002-1962, 13 p.Article
Physiological advantages of C4 grasses in the field: a comparative experiment demonstrating the importance of droughtTAYLOR, Samuel H; RIPLEY, Brad S; MARTIN, Tarryn et al.Global change biology (Print). 2014, Vol 20, Num 6, pp 1992-2003, issn 1354-1013, 12 p.Article
Estimating Factor Contributions to Soybean Yield from Farm Field DataVILLAMIL, María B; DAVIS, Vince M; NAFZIGER, Emerson D et al.Agronomy journal (Print). 2012, Vol 104, Num 4, pp 881-887, issn 0002-1962, 7 p.Article
The treatment of rape (Brassica napus L.) seeds with the help of electrical fieldPOZELIENE, A; LYNIKIENE, S.Agronomy research (Tartu). 2009, Vol 7, Num 1, pp 39-46, issn 1406-894X, 8 p.Article