Dynamical characterization of the last prolonged solar minima

Cionco, R.G.; Compagnucci, R.H.

doi:10.1016/j.asr.2012.07.013

Navegar

Documento Últimos Documentos Autor FCEN - Año Autor FCEN - Revista Año - Revista Revista - Año SubjectPcEn Colores Type

Colección

Artículo

Cionco, R.G.; Compagnucci, R.H. "Dynamical characterization of the last prolonged solar minima" (2012) Advances in Space Research. 50(10):1434-1444

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_02731177_v50_n10_p1434_Cionco

La versión final de este artículo es de uso interno. El editor solo permite incluir en el repositorio el artículo en su versión post-print. Por favor, si usted la posee enviela a

Consulte el artículo en la página del editor

Consulte la política de Acceso Abierto del editor

Abstract:

The planetary hypothesis of the solar cycle is an old idea in which the gravitational influence of the planets has a non-negligible effect on the causes of the solar magnetic cycle The advance of this hypothesis is based on phenomenological correlations between dynamical parameters of the Sun's movement around the barycentre of the Solar System and sunspots time series; and more especially, identifying relationships linking solar barycentric dynamics with prolonged minima (especially Grand Minima events) However, at present there is no clear physical mechanism relating these phenomena The possible celestial influence on solar cycle modulation is of great importance not only in solar physics but also in Earth sciences, because prolonged solar minima have associated important climatic and telluric variations, in particular, during the Maunder and Dalton Minimum In this work we looked for a possible causal link in relation with solar barycentric dynamics and prolonged minima events We searched for particular changes in the Sun's acceleration and concentrated on long-term variations of the solar cycle We show how the orbital angular momentum of the Sun evolves and how the inclination of the solar barycentric orbit varies during the epochs of orbital retrogressions In particular, at these moments, the radial component of the Sun's acceleration (i.e.; in the barycentre-Sun direction) had an exceptional magnitude These radial impulses occurred at the very beginning of the Maunder Minimum, during the Dalton Minimum and also at the maximum of cycle 22 before the present extended minimum We also found a strong correlation between the planetary torque and the observed sunspots international number around that maximum We apply our results in a novel theory of Sun-planets interaction that it is sensitive to Sun barycentric dynamics and found a very important effect on the Sun's capability of storing hypothetical reservoirs of potential energy that could be released by internal flows and might be related to the solar cycle This process begins about 40 years before the solar angular momentum inversions, i.e.; before Maunder Minimum, Dalton Minimum, and before the present extended minimum Our conclusions suggest a dynamical characterization of peculiar prolonged solar minima We discuss the possible implications of these results for the solar cycle including the present extended minimum © 2012 COSPAR Published by Elsevier Ltd All rights reserved.

Registro:

Documento:	Artículo
Título:	Dynamical characterization of the last prolonged solar minima
Autor:	Cionco, R.G.; Compagnucci, R.H.
Filiación:	Universidad Tecnológica Nacional (UTN), Facultad Regional San Nicolás, Colón 332, San Nicolás de los Arroyos 2900, Buenos Aires, Argentina Universidad de Buenos Aires, Departamento de Ciencias de la Atmósfera y Los Océanos, Ciudad Universitaria, Pabellón II;CABA 1428, Argentina
Palabras clave:	Grand Minima events; Solar activity; Sun-Earth connection; Sun-planets interactions; Dynamical characterization; Dynamical parameters; Grand Minima events; Internal flows; Long-term variations; Maunder minimum; Orbital angular momentum; Physical mechanism; Radial component; Solar activity; Solar cycle; Solar cycle modulation; Solar magnetic cycle; Solar minima; Solar physics; Strong correlation; Sun-Earth connection; Angular momentum; Dynamics; Planets; Solar energy; Sun
Año:	2012
Volumen:	50
Número:	10
Página de inicio:	1434
Página de fin:	1444
DOI:	http://dx.doi.org/10.1016/j.asr.2012.07.013
Título revista:	Advances in Space Research
Título revista abreviado:	Adv. Space Res.
ISSN:	02731177
CODEN:	ASRSD
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_02731177_v50_n10_p1434_Cionco

Referencias:

Ahluwalia, H.S., Ygbuhay, R.C., Sunspot cycle 24 and the advent of Dalton-like minimum (2012) Adv Astron., 2012, p. 5. , 10.1155/2012/126516 (Article ID 126516)
Badalyan, O.G., Obridko, V.N., Sykora, J., Brightness of the coronal green line and prediction for activity cycles 23 and 24 (2001) Sol Phys., 199, pp. 421-435
Blizard, J.B., Solar motion and solar activity (1981) Bull Amer Astron Soc., 13, p. 876
Brown, E., A possible explanation of the sun-spot period (1900) Mon Not Roy Astron Soc., 60, pp. 599-600
Burkhardt, G., On the invariable plane of the solar system (1982) Astron Astrophys., 106, pp. 133-136
Charvátová, I., Solar-terrestrial and climatic phenomena in relation to solar inertial motion (1997) Surv Geophys., 18, pp. 131-146
Charvátová, I., Can origin of the 2400-year cycle of solar activity be caused by solar inertial motion? (2000) Ann Geophys., 18, pp. 399-405
Charvátová, I., Long-term predictive assessments of solar and geomagnetic activities made on the basis of the close similarity between the solar inertial motions (2009) New Astron., 14, pp. 25-30
Charvátová, I., Streštík, J., Periodicities between 6 and 16 years in surface air temperature in possible relation to solar inertial motion (2004) J Atm Solar-Terr Phys., 66, pp. 219-227
Chambers, J.E., A hybrid symplectic integrator that permits close encounters between massive bodies (1999) Mon Not Roy Astron Soc., 304, pp. 793-799
Choudhuri, A.R., Karak, B.B., A possible explanation of the Maunder Minimum from a flux transport dynamo model (2009) Res Astron Astrophys., 9, pp. 953-958
Charbonneau, P., Dynamo models of the solar cycle (2010) Living Rev Sol Phys., 7 (3)
Charbonneau, P., Dikpati, M., Stochastic fluctuations in a Babcock-Leighton model of the solar cycle (2000) Astroph J., 543, pp. 1027-1043
De Jager, C., Duhau, S., Forecasting the parameters of sunspot cycle 24 and beyond (2009) J Atmos Sol Terr Phys., 71, pp. 239-245
De Jager, C., Versteegh, G.J.M., Do planetary motions drive solar variability? (2005) Sol Phys., 229, pp. 175-179
Duhau, S., De Jager, C., The solar dynamo and its phase transitions during the last millennium (2008) Sol Phys., 25, pp. 1-15
Eddy, J., The Maunder Minimum (1976) Science, 192, pp. 1189-1202
Fairbridge, R., Shirley, J., Prolonged minima and the 179-yr cycle of the solar inertial motion (1987) Sol Phys., 110, pp. 191-210
Feulner, G., Rahmstorf, S., On the effect of a new grand minimum of solar activity on the future climate on Earth (2010) Geophys Res Lett., 37, p. 05707
Fränz, M., Harper, D., Heliospheric coordinate system (2002) Planet Space Sci., 50, pp. 217-233
Gibson, S.E., Kozyra, J.U., De Toma, G., Emery, B.A., Onsager, T., Thompson J, B.J., (2009) Geophys Res., 114, p. 7. , A09105 doi: 10.1029/2009JA014342
Grandpierre, A., On the origin of solar cycle periodicity (1996) Astrophys Space Sci., 243, pp. 393-400
Gray, L.J., Beer, J., Geller, M.J., Haigh, D., Lockwood, M., Matthes, K., Cubasch, U., White, W., Solar influences on climate (2010) Rev Geophys., 48, p. 4001. , 10.1029/2009RG000282
Hathaway, D.H., Rightmire, L., Variations in the Sun's meridional flow over a solar cycle (2010) Science, 327, pp. 1350-1352
Javaraiah, J., Sun's retrograde motion and violation of even-odd cycle rule in sunspot activity (2005) Mon Not Roy Astron Soc., 362, pp. 1311-1324
Jose, P., Sun's motion and sunspots (1965) Astron J., 70, pp. 193-200
Juckett, D., Solar activity cycles, north/south asymmetries, and Differential rotation associated with solar spin-orbit variations (2000) Sol Phys., 191, pp. 201-226
Juckett, D., Temporal variations of low-order spherical harmonic representations of sunspot group patterns: Evidence for solar spin-orbit coupling (2003) Astron Astrophys., 399, pp. 731-741
Kane, R.P., Prediction of solar cycle 24 based on the Gnevyshev-Ohl-Kopecky rule and the three-cycle periodicity scheme (2008) Ann Geophys., 26, pp. 3329-3339
Karak, B.B., Importance of meridional circulation in flux transport dynamo: The possibility of a maunder-like grand minimum (2010) Astrophys J., 724, pp. 1021-1029
Khain, V.E., Khalilov, E.N., About possible influence of solar activity upon seismic and volcanic activities: Long-term forecast Science without borders (2007) Transactions of the International Academy of Science H & e, 3. , SWB, Innsbruck, ISBN 978-9952-451-01-6 ISSN 2070-0334, 2008
Lamb, H.H., Uptake of the chronology of assessments of the volcanic dust veil index (1983) Clim Monitor, 12, pp. 79-90
Lamb, H.H., (1995) Climate, History and the Modern World, , second ed Routledge, 11 New Fetter Lane, London EC4P 4EE
Landscheidt, T.J., Solar rotation, impulses of the torque in the Sun's motion, and climatic variation (1988) Clim Change, 12, pp. 265-295
Landscheidt, T., Extrema in sunspots cycle linked to Sun's motion (1999) Sol Phys., 189 (2), pp. 413-419
Laskar, J., Large-scale chaos in the solar system (1994) Astron Astrphys., 287, pp. 9-L12
Livingston, W., Penn, M., Are sunspots different during this solar minimum? (2009) Eos Trans AGU, 90 (30). , 10.1029/2009EO300001
Loehle, C., McCulloch, J.H., Correction to: A 2000-year global temperature reconstruction based on non-tree ring proxies (2008) Energy Environ., 19, pp. 93-100
Mann, M.E., Zhang, Z., Rutherford, S., Bradley, R.S., Hughes, M.K., Shindell, D., Ammann, C., Ni, F., Global signatures and dynamical origins of the little ice age and medieval climate anomaly (2009) Science, 27, pp. 1256-1260
Nielsen, M.L., Kjeldsen, H., Is cycle 24 the beginning of a Dalton-like minimum? (2011) Sol Phys., 270, pp. 385-392
Odintsov, S.D., Ivanov-Kholodnyi, G.S., Georgieva, K., Solar activity and global seismicity of the Earth (2007) Bull Russ Acad Sci.: Phys., 71 (4), pp. 593-595
Paluš, M., Kurths, J., Schwarz, U., Seehafer, N., Novotná, D., Charvátová, I., The solar activity cycle is weakly synchronized with the solar inertial motion (2007) Phys Lett A, 365, pp. 421-428
Perryman, M.A.C., Schulze-Hartung, T., The barycentric motion of exoplanet host stars Tests of solar spin-orbit coupling (2011) Astron Astrophys., 525, pp. 65-A72
Press, W., Teukolsky, S., Vetterling, V., Flannery, B., (1992) Numerical Recipes in FORTRAN: The Art of Scientific Computing, , second ed Cambridge University Press
Rozelot, J.P., Damiani, C., Pireaux, S., Probing the solar surface: The oblateness and astrophysical consequences (2009) Astrophys J., 703, pp. 1791-1796
Scafetta, N., Empirical evidence for a celestial origin of the climate oscillations and its implications (2010) J Atm and Solar-Terr Phys., , 10.1016/j.jastp 2010.04.015
Shirley, J.H., Axial rotation, orbital revolution and solar spin-orbit coupling (2006) Mon Not Roy Astron Soc., 368, pp. 280-286
Solanki, S.K., Usoskin, I.G., Kromer, B., Schüssler, M., Beer, J., Unusual activity of the Sun during recent decades compared to the previous 11,000 years (2004) Nature, 431, pp. 1084-1087
Solomon, S.C., Woods, T.N., Didkovsky, L.V., Emmert, J.T., Qian, L., Anomalously low solar extreme-ultraviolet irradiance and thermospheric density during solar minimum (2010) Geophys Res Lett., 37, p. 16103
Song, X., Lubin, D., Zhang, G.J., Increased greenhouse gases enhance regional climate response to a Maunder Minimum (2010) Geophys Res Lett., 37, p. 01703. , 10.1029/2009GL041290
Strogatz, S.H., Exploring complex networks (2001) Nature, 410, pp. 268-276
Stuiver, Q., Quay, P.D., A 1600 year long record of solar change derived from atmospheric 14C levels (1981) Sol Phys., 74, pp. 479-481
Takahashi, K., On the relation between the solar activity cycle and the solar tidal force induced by the planets (1968) Sol Phys., 3, pp. 598-602
Tan, B., Multi-timescale solar cycles and the possible implications (2011) Astrophys Space Sci., 332, pp. 65-72
Usoskin, I.G., A history of solar activity over millennia (2008) Living Rev Sol Phys., 5 (3)
Usoskin, I.G., Sokoloff, D., Moss, D., Grand minima of solar activity and the mean-field dynamo (2009) Sol Phys., 254, pp. 345-355
Wagner, S., Zorita, E., The influence of volcanic, solar and CO2 forcing on the temperatures in the Dalton Minimum (1790-1830): A model study (2005) Clim Dynam., , 10.1007/s00382-005-0029-0
Wolf, R., Extract of a letter to Mr Carrington (1859) Mon Not Roy Astron Soc., 19, pp. 85-86
Wolff, C.L., Patrone, P.N., A new way that planets can affect the Sun (2010) Sol Phys., 266, pp. 227-246
Wood, K.D., Sunspots and planets (1972) Nature, 240, pp. 91-93
Wood, R.M., Wood, K.D., Solar motion and sunspot comparison (1965) Nature, 208, pp. 129-131

Citas:

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

Cionco, R.G. & Compagnucci, R.H. (2012) . Dynamical characterization of the last prolonged solar minima. Advances in Space Research, 50(10), 1434-1444.
http://dx.doi.org/10.1016/j.asr.2012.07.013

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

Cionco, R.G., Compagnucci, R.H. "Dynamical characterization of the last prolonged solar minima" . Advances in Space Research 50, no. 10 (2012) : 1434-1444.
http://dx.doi.org/10.1016/j.asr.2012.07.013

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

Cionco, R.G., Compagnucci, R.H. "Dynamical characterization of the last prolonged solar minima" . Advances in Space Research, vol. 50, no. 10, 2012, pp. 1434-1444.
http://dx.doi.org/10.1016/j.asr.2012.07.013

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

Cionco, R.G., Compagnucci, R.H. Dynamical characterization of the last prolonged solar minima. Adv. Space Res. 2012;50(10):1434-1444.
http://dx.doi.org/10.1016/j.asr.2012.07.013