Saved in:
Bibliographic Details
Main Authors: Gardner, William A., Napolitano, Antonio
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.18625
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866912917329281024
author Gardner, William A.
Napolitano, Antonio
author_facet Gardner, William A.
Napolitano, Antonio
contents It has recently been discovered that the time phases (time-varying delays) of the irregular periodicities observed in the Sunspot series, consisting of the approximate 27-day latitude-averaged plasma rotation and approximate 11-yr magnetic pole reversal, share a common pattern or cycle of irregularity. Because the method of measurement contains an unknown constant delay of no practical significance, the average of the measured cycle of delay is subtracted out, and the resultant cycle proceeds from zero delay to maximum delay, back to zero delay, then to maximum advance, and finally back to zero advance/delay. The period of this cycle is estimated to be 164 years, which does not allow for even one full repetition of the pattern in the 205-yr data record. So, it may or may not be a segment of an ongoing (pseudo) periodicity. Nevertheless, the fact that this cycle of irregularity in period is shared by two long-recognized genuine irregular periodicities tied to specific activity from two distinct solar phenomena suggests there is a common phenomenon affecting these periodicities. The physics-based link between the rotation speed of the interior of the Sun and the average over latitude of the rotation period of the surface plasma, approximately 27 days on average, suggests the possibility that there may be a single primary phenomenon that is responsible for irregularity of both rotation of the interior of the Sun and the period, approximately 11 yrs on average, of pole-reversal. This is consistent with recently reported (November 2025) results on hypothesized planetary forcing of the Solar dynamo.
format Preprint
id arxiv_https___arxiv_org_abs_2602_18625
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Solar cycle irregularity study
Gardner, William A.
Napolitano, Antonio
Solar and Stellar Astrophysics
It has recently been discovered that the time phases (time-varying delays) of the irregular periodicities observed in the Sunspot series, consisting of the approximate 27-day latitude-averaged plasma rotation and approximate 11-yr magnetic pole reversal, share a common pattern or cycle of irregularity. Because the method of measurement contains an unknown constant delay of no practical significance, the average of the measured cycle of delay is subtracted out, and the resultant cycle proceeds from zero delay to maximum delay, back to zero delay, then to maximum advance, and finally back to zero advance/delay. The period of this cycle is estimated to be 164 years, which does not allow for even one full repetition of the pattern in the 205-yr data record. So, it may or may not be a segment of an ongoing (pseudo) periodicity. Nevertheless, the fact that this cycle of irregularity in period is shared by two long-recognized genuine irregular periodicities tied to specific activity from two distinct solar phenomena suggests there is a common phenomenon affecting these periodicities. The physics-based link between the rotation speed of the interior of the Sun and the average over latitude of the rotation period of the surface plasma, approximately 27 days on average, suggests the possibility that there may be a single primary phenomenon that is responsible for irregularity of both rotation of the interior of the Sun and the period, approximately 11 yrs on average, of pole-reversal. This is consistent with recently reported (November 2025) results on hypothesized planetary forcing of the Solar dynamo.
title Solar cycle irregularity study
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2602.18625