On the Current Solar Magnetic Activity in the Light of Its Behaviour During the Holocene

TY - JOUR

T1 - On the Current Solar Magnetic Activity in the Light of Its Behaviour During the Holocene

AU - Inceoglu, Fadil

AU - Simoniello, Rosaria

AU - Knudsen, Mads Faurschou

AU - Karoff, Christoffer

AU - Olsen, Jesper

AU - Turck-Chiéze, Sylvaine

PY - 2016/1

Y1 - 2016/1

N2 - Solar modulation potential (SMP) reconstructions based on cosmogenic nuclide records reflect changes in the open solar magnetic field and can therefore help us obtain information on the behaviour of the open solar magnetic field over the Holocene period. We aim at comparing the Sun's large-scale magnetic field behaviour over the last three solar cycles with variations in the SMP reconstruction through the Holocene epoch. To achieve these objectives, we use the IntCal13 C-14 data to investigate distinct patterns in the occurrences of grand minima and maxima during the Holocene period. We then check whether these patterns might mimic the recent solar magnetic activity by investigating the evolution of the energy in the Sun's large-scale dipolar magnetic field using the Wilcox Solar Observatory data. The cosmogenic radionuclide data analysis shows that approximate to 71 % of grand maxima during the period from 6600 BC to 1650 AD were followed by a grand minimum. The characteristics of the occurrences of grand maxima and minima are consistent with the scenario in which the dynamical non-linearity induced by the Lorentz force leads the Sun to act as a relaxation oscillator. This finding implies that the probability for these events to occur is non-uniformly distributed in time, as there is a memory in their driving mechanism, which can be identified via the back-reaction of the Lorentz force.

AB - Solar modulation potential (SMP) reconstructions based on cosmogenic nuclide records reflect changes in the open solar magnetic field and can therefore help us obtain information on the behaviour of the open solar magnetic field over the Holocene period. We aim at comparing the Sun's large-scale magnetic field behaviour over the last three solar cycles with variations in the SMP reconstruction through the Holocene epoch. To achieve these objectives, we use the IntCal13 C-14 data to investigate distinct patterns in the occurrences of grand minima and maxima during the Holocene period. We then check whether these patterns might mimic the recent solar magnetic activity by investigating the evolution of the energy in the Sun's large-scale dipolar magnetic field using the Wilcox Solar Observatory data. The cosmogenic radionuclide data analysis shows that approximate to 71 % of grand maxima during the period from 6600 BC to 1650 AD were followed by a grand minimum. The characteristics of the occurrences of grand maxima and minima are consistent with the scenario in which the dynamical non-linearity induced by the Lorentz force leads the Sun to act as a relaxation oscillator. This finding implies that the probability for these events to occur is non-uniformly distributed in time, as there is a memory in their driving mechanism, which can be identified via the back-reaction of the Lorentz force.

KW - Magnetic fields, models

KW - Solar cycle, models

KW - Sun, activity

KW - Sun, dynamo

KW - GRAND MINIMA

KW - DYNAMO CONFIGURATION

KW - MAUNDER MINIMUM

KW - CYCLE 24

KW - MODEL

KW - FIELD

KW - FLUX

KW - RECONSTRUCTION

KW - PARAMETERS

KW - REVERSAL

UR - https://www.scopus.com/pages/publications/84952631135

U2 - 10.1007%2Fs11207-015-0805-x

DO - 10.1007%2Fs11207-015-0805-x

M3 - Journal article

SN - 0038-0938

VL - 291

SP - 303

EP - 315

JO - Solar Physics

JF - Solar Physics

IS - 1

ER -