The sudden increase of solar and geomagnetic acitivity after 1923 as a manifestation of a non-linear solar dynamo

Duhau, S.; Chen, Ch.Y.

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Duhau, S.; Chen, Ch.Y. "The sudden increase of solar and geomagnetic acitivity after 1923 as a manifestation of a non-linear solar dynamo" (2002) Geophysical Research Letters. 29(13):6-1 - 6-4

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Abstract:

There are some indications that the coupling function between the polar and the toroidal solar magnetic field strengths are time dependent. Therefore, as proxy data of these strengths, the relationship between long-term modulation of solar and geomagnetic activity is analyzed here by means of a wavelet multi-resolution analysis of yearly means of sunspot number and geomagnetic index aa since 1844. It is found that aa index and relative sunspot number long-term modulations oscillate around constant levels that have increased to be 1.9 and 1.6, respectively of its values prior 1923. The oscillations of the aa and Rz long-term modulation appear to be well represented by the superposition of a decadal cycle and the Gleissberg cycle. The amplitude ratio and the phase shift between the Rz and aa decadal cycles changed sharply at year 1923, and the Gleissberg cycle was interrupted to be restarted at year 1949. The synchronicity of these changes with temporal changes in several solar and solar-terrestrial variables indicates that the non-linear nature of the solar dynamo has lead to a major change of its background state after 1923.

Registro:

Documento:	Artículo
Título:	The sudden increase of solar and geomagnetic acitivity after 1923 as a manifestation of a non-linear solar dynamo
Autor:	Duhau, S.; Chen, Ch.Y.
Filiación:	Departamento de Fisica, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Argentina School of Electrical Engineering, Cornell University, NY, United States
Palabras clave:	Magnetic fields; Modulation; Oscillations; Phase shift; Sunspot number; Geomagnetism; geomagnetic field; solar activity; sunspot
Año:	2002
Volumen:	29
Número:	13
Página de inicio:	6
Página de fin:	1 - 6-4
Título revista:	Geophysical Research Letters
Título revista abreviado:	Geophys. Res. Lett.
ISSN:	00948276
CODEN:	GPRLA
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00948276_v29_n13_p6_Duhau

Referencias:

Antoine, J.P., Wavelet analyses: A new tool in physics (1999) Wavelet in Physics, pp. 9-21. , edited by J. C. van der Berg, Cambridge University Press
Babcock, H.W.J., The topology the sun's field and the twenty-two years cycle (1961) Astrophys. J, 139, pp. 572-587
Beer, J.S., Tobias, S., Weiss, N., An active sun trough the Maunder minimum (1998) Solar Phys, 181, pp. 237-249
Duhau, S., Chen, C.Y., The origin of the geomagnetic field in the secular time scale (2000) Anales Asociacion Fisica Argentina, 11, pp. 326-330
Duhau, S., Chen, C.Y., A multi-resolution analysis of the relationship between the solar sunspot number and the geomagnetic index aa (2000) Anales Asociacion Fisica Argentina, 11, pp. 321-325
Duhau, S., Martinez, E.A., Hurtado de Mendoza, D., On the origin of solar Gleissberg cycle and of the secular geomagnetic variations (1997) Actas 19 Reunion Cientifica de Geofisica y Geodesia, pp. 86-89. , San Juan, Argentina
Duhau, S., Martinez, E.A., On the origin of the fluctuations in the length of the day and in the geomagnetic field on a decadal time scale (1995) Geophys. Res. Lett, 22, pp. 3283-3286
Farge, M., Wavelet transform and their applications to turbulence (1992) Annu. Rev. Fluid Mech, 24, pp. 395-459
Feynman, J., Gabriel, S., Period and phase of the 88-year solar cycle and the maunder minimum: Evidence for a chaotic sun (1989) Solar Phys, 127, pp. 393-403
Gleissberg, W., Ascent and descent in the eighty-year cycles of solar activity (1966) Journal of the British Astronomical Society, 76, pp. 265-270
Hathaway, D.H., Wilson, R.M., Reichmann, E.J., A synthesis of solar cycle prediction techniques (1999) J. Geophys. Res, 104, pp. 22375-22388
Hoyt, D.V., Schatten, K.H., (1997) The Role of the Sun in Climate Change, , 279 pp
Knobloch, E., Tobias, S.M., Weiss, N.O., Modulation and symmetry changes in stellar dynamos (1998) Mon. Not. R. Astron. Soc, 297, pp. 1123-1138
Legrand, J.P., Simon, P.A., A two component solar cycle (1991) Solar Phys, 131, pp. 187-209
Layden, A.C., Fox, P.A., Howard, J.M., Dsarajedini, K.H., Sofia, S., Dynamo-based scheme for forecasting the magnitude of solar activity cycles (1991) Solar Phys, 132, pp. 1-40
Lawrence, J.H., Ruzmaikin, A.A., Transient solar influence on terrestrial temperature fluctuations (1998) Geophys. Res. Lett, 25, pp. 159-162
Lockwood, M., Stamper, R., Wild, M.N., A doubling of the sun's coronal magnetic field during the past 100 years (1999) Nature, 394, pp. 437-439
Mursula, K., Zieger, B., Long-term north-south asymmetry in solar wind speed inferred from geomagnetic activity: A new type of century-scale oscilation? (2001) Geophys. Res. Lett, 28, pp. 95-98
Nevanlinna, H., Kataja, E., An extension of the geomagnetic index series aa for two solar cycles (1993) Geophys. Res. Lett, 20, pp. 2703-2706
Oliver, R., Ballester, J.L., Baudin, F., Emergence of magnetic flux on the sun as the cause of a 158-day periodicity in sunspot areas (1998) Nature, 394, pp. 552-553
Polygiannakis, J.M., Moussas, X., Sonett, C.P., A nonlinear RLC solar cycle model (1996) Solar Phys, 163, pp. 193-203
Rioul, O., Vetterli, M., Wavelets and signal processing (1991) IEEE Signal Processing Magazine, pp. 14-37. , October 1991
Russell, C.T., On the possibility of delivering interplanetary and solar parameters from geomagnetic records (1975) Solar Phys, 42, pp. 259-269
Russell, C.T., Mulligan, T., The 22-year variation of geomagnetic activity: Implications for the polar magnetic field of the sun (1995) Geophys. Res. Lett, 22, pp. 328-331
Schatten, K.H., Scherrer, P.H., Svalgaard, L., Wilcox, J.M., Using dynamo theory to predict the sunspot number during solar cycle 21 (1978) Geophys. Res. Lett, 5, pp. 411-414
Sofia, S., Dunham, D.W., Dunham, J.B., Fiala, A.D., Solar radius change between 1925 and 1979 (1983) Nature, 304, pp. 522-526
Vennerstroem, S., Long-term rise in geomagnetic activity-A close connection between quiet days and storms (2000) Geophys. Res. Lett, 27, pp. 69-72

Citas:

---------- APA ----------

Duhau, S. & Chen, Ch.Y. (2002) . The sudden increase of solar and geomagnetic acitivity after 1923 as a manifestation of a non-linear solar dynamo. Geophysical Research Letters, 29(13), 6-1 - 6-4.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00948276_v29_n13_p6_Duhau [ ]

---------- CHICAGO ----------

Duhau, S., Chen, Ch.Y. "The sudden increase of solar and geomagnetic acitivity after 1923 as a manifestation of a non-linear solar dynamo" . Geophysical Research Letters 29, no. 13 (2002) : 6-1 - 6-4.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00948276_v29_n13_p6_Duhau [ ]

---------- MLA ----------

Duhau, S., Chen, Ch.Y. "The sudden increase of solar and geomagnetic acitivity after 1923 as a manifestation of a non-linear solar dynamo" . Geophysical Research Letters, vol. 29, no. 13, 2002, pp. 6-1 - 6-4.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00948276_v29_n13_p6_Duhau [ ]

---------- VANCOUVER ----------

Duhau, S., Chen, Ch.Y. The sudden increase of solar and geomagnetic acitivity after 1923 as a manifestation of a non-linear solar dynamo. Geophys. Res. Lett. 2002;29(13):6-1 - 6-4.
Available from: https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00948276_v29_n13_p6_Duhau [ ]