D. I. Ponyavin scite author profile

D. I. Ponyavin

3Publications

218Citation Statements Received

98Citation Statements Given

How they've been cited

236

195

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Affiliations

St Petersburg University, Institute of Physics

Publications

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The Maunder Minimum Is Not as Grand as It Seemed to Be

Zolotova

Ponyavin

2015

ApJ

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The Maunder Minimum (MM), which occurred between 1645 and 1715, is mainly known as an almost spotless period on the Sun. We analyze the nominal number of sunspot groups for each observer individually. Comparing the sunspot drawings and textual reports, we conclude that the latter underestimate the number of sunspots. We also argue that the different points of view of observers in the seventeenth century on the origin of sunspots resulted in the underestimation of sunspot groups or even gaps in observational reports. We demonstrate that Jean Picard and Giovanni Domenico Cassini of the Paris Observatory did not report any sunspots, while other observers reported on the occurrence of spots. Moreover, compared with other observers, La Hire underestimated the solar activity. The MM looks like an ordinary secular minimum with a depressed 11 yr solar cyclicity.

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Phase asynchrony of the north-south sunspot activity

Zolotova

Ponyavin

2006

A&A

102

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Aims. Northern and Southern sunspot activities demonstrate striking synchronous behavior during a solar cycle. But sometimes synchronization fails and the north-south asymmetry occurs. The problem is the origin of the north-south asymmetry and its quasi-regular oscillations. Methods. We employed Cross-Recurrence Plot analysis to extract synchronization between the Northern and Southern sunspot activities. Results. By using Cross-Recurrence Plot technique and extracting line of synchronization we found that the north-south sunspot asymmetry is due to phase asynchrony between Northern and Southern hemispheric activities.

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Long-term asymmetry in the wings of the butterfly diagram

Zolotova

Ponyavin

Marwan

et al. 2009

A&A

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Aims. Sunspot distribution in the northern and southern solar hemispheres exibit striking synchronous behaviour on the scale of a Schwabe cycle. However, sometimes the bilateral symmetry of the Butterfly diagram relative to the solar equatorial plane breaks down. The investigation of this phenomenon is important to explaining the almost-periodic behaviour of solar cycles. Methods. We use cross-recurrence plots for the study of the time-varying phase asymmetry of the northern and southern hemisphere and compare our results with the latitudinal distribution of the sunspots. Results. We observe a long-term persistence of phase leading in one of the hemispheres, which lasts almost 4 solar cycles and probably corresponds to the Gleissberg cycle. Long-term variations in the hemispheric-leading do not demonstrate clear periodicity but are strongly anti-correlated with the long-term variations in the magnetic equator.

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D. I. Ponyavin

The Maunder Minimum Is Not as Grand as It Seemed to Be

Phase asynchrony of the north-south sunspot activity

Long-term asymmetry in the wings of the butterfly diagram

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