Heartbeat of the Sun from Principal Component Analysis and prediction of solar activity on a millenium timescale

Zharkova, V. V.; Shepherd, Simon J.; Попова, Е. П.; Zharkov, S.

doi:10.1038/srep15689

Cited by 65 publications

(312 citation statements)

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“…Some models, mostly based on precursor method, succeed in reasonable predictions of a forthcoming solar cycle (i.e., several years ahead), but they do not pretend to extend further in time. On the other hand, many claims of the solar activity forecast for 40-50 years ahead and even beyond that, even millennia ahead (Zharkova et al 2015), have been made recently, often without sensible argumentation. However, so far there is no evidence of any method giving a reasonable prediction of solar activity beyond the solar-cycle scale (see, e.g., Sect.…”

Section: A Note On Solar Activity Predictionsmentioning

confidence: 99%

“…Indeed, numerous attempts of this kind have been made even recently (e.g., Nagovitsyn 1997;de Meyer 1998;Rigozo et al 2001;Zharkova et al 2015). Such models aim to find the main feature of the actually-observed sunspot series, e.g., a modulated carrier frequency or a multi-harmonic representation, which is then extrapolated backwards in time.…”

Section: Mathematical/statistical Extrapolationsmentioning

confidence: 99%

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A history of solar activity over millennia

Usoskin

2017

Living Rev Sol Phys

381

241

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Presented here is a review of present knowledge of the long-term behavior of solar activity on a multi-millennial timescale, as reconstructed using the indirect proxy method. The concept of solar activity is discussed along with an overview of the special indices used to quantify different aspects of variable solar activity, with special emphasis upon sunspot number. Over long timescales, quantitative information about past solar activity can only be obtained using a method based upon indirect proxies, such as the cosmogenic isotopes 14 C and 10 Be in natural stratified archives (e.g., tree rings or ice cores). We give an historical overview of the development of the proxy-based method for past solar-activity reconstruction over millennia, as well as a description of the modern state. Special attention is paid to the verification and cross-calibration of reconstructions. It is argued that this method of cosmogenic isotopes makes a solid basis for studies of solar variability in the past on a long timescale (centuries to millennia) during the Holocene. A separate section is devoted to reconstructions of strong solar energetic-particle (SEP) events in the past, that suggest that the present-day average SEP flux is broadly consistent with estimates on longer timescales, and that the occurrence of extra-strong events is unlikely. Finally, the main features of the long-term evolution of solar magnetic activity, including the

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Section: A Note On Solar Activity Predictionsmentioning

confidence: 99%

Section: Mathematical/statistical Extrapolationsmentioning

confidence: 99%

A history of solar activity over millennia

Usoskin

2017

Living Rev Sol Phys

381

241

View full text Add to dashboard Cite

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“…This reasoning confirm the finding of PCA [Zharkova et al, 2012] reporting the secondary latitudinal magnetic field components caused by quadruple sources [Popova et. al., 2013] to have the amplitudes ranging from 0.2 to 0.7 of the dipole one.Extending these model simulations of the joint dipole and quadruple waves to the simulations of the summary curve for the 2000 years, similar to that presented by Fig.6 in [Zharkova et al, 2015] we can obtain the summary curves ( Fig.1) with a quadruple wave with the amplitude a factor 0.3 of the dipole wave amplitude is presented in the top tree plots and the original summary curve derived for dipole waves from observations [Zharkova et al, 2015] in the bottom plot. Fig.1a is obtained for 80 year Gleissberg cycle, Fig1.b for 90 year Gleissberg cycle, and Fig1.c for 100 year Gleissberg cycle.…”

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confidence: 94%

“…If in each layer meridional flows have different amplitudes and tree waves interfere with each other, then we can obtain double beating effect of these waves. Such double beating effect can lead to simultaneous presence of global minima similar to the Maunder minimum and the Gleisberg cycle against the background of 22-year oscillations of the magnetic field.Following the technique presented by [Zharkova et al, 2015] (their formula (1) in section on beating effects) we can estimate periods of waves for obtaining double beating effect. Any two interfering waves with the close cyclic frequencies ω 1 and ω 2 can produce a beating effect with their upper frequency, ω u being the average of these two, ω u = 1/2(ω 1 +ω 2 ) and the lower frequency, ω l , being their difference, ω l = 1/2(ω 1 -ω 2 ).…”

mentioning

confidence: 99%

“…We used a simple scheme for the stabilization of the magnetic field growth, namely, the algebraic quenching of the helicity. This scheme assumes Proceedings of Ninth Workshop "Solar Influences on the Magnetosphere, Ionosphere and Atmosphere" Sunny Beach, Bulgaria, May 30 -June 3, 2016 Topic: Sun and Solar Activity), where α 0 (θ) = cosθ is the helicity in the unmagnetized medium and B 0 = ξ --1 is the magnetic field for which the α-effect is considerably suppressed.For two layers consider the latitude distribution of the magnetic field for dipole magnetic sources in the form [Zharkova et al, 2015]:By substituting the chosen set of components of magnetic field into the dynamo equations and collecting the coefficients of the sines with similar arguments, one can obtain a dynamical system of six equations containing the two dipole and one quadruple modes.Suppose that in the third layer a wave is generated from the quadruple source, then we have to consider the latitude distribution of the magnetic field in such form [Popova, 2013]:A dynamical system for quadruple source can be obtained in the similar way as for dipole sources, but expanding the terms to include the quadruple source contributions.In [Popova et. al., 2008] it was shown that periods of dynamo waves are regulated by the amplitude of a meridional flow.…”

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confidence: 99%

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Book of Proceedings: Ninth Workshop, Sunny Beach, Bulgaria, May 30 - June 3, 2017

2017

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E Ed di it to or rs s: Katya Georgieva, Boian Kirov, Dimitar DanovProceedings of Ninth Workshop "Solar Influences on the Magnetosphere, Ionosphere and Atmosphere" Sunny Beach, Bulgaria, May 30 ÷ June 3, 2017 C C O O N N T T E E N N T T Sun and Solar Activity Podgorny I.M., Podgorny A.I. Diagnostics of Solar Flares by Analyzing the SpectralLine Emission of Highly Ionized Iron 01 Kalinichenko N., Olyak M., Konovalenko A., Brazhenko A., Ivantishin O., Lytvynenko O., Bubnov I., Yerin S., Kuhai N., Romanchuk O. A method for reconstructing the solar-wind stream structure beyond Earths orbit 07 Melnik V., Brazhenko A., Dorovskyy V., Rucker H., Panchenko M., Frantsuzenko A., Shevchuk M.. Decameter type IV burst associated with behind-limb CME observed on November 7, 2013 13 Miteva R., Samwel S.W., Krupar V. Solar radio burst emission from protonproducing flares and coronal mass ejections 19 Veselovsky I., Kaportseva K., Lukashenko A. Eight types of the solar wind and their origins 24 Stanislavsky A.A., Konovalenko A.A., Koval A.A., Volvach Ya.S.. An upgrade of the UTR-2 radio telescope to a multifrequency radio heliograph I., Gromov S.V., Kleimenova N.G., Dremukhina L.A.. Role of the IMF |Bz|/|By| in the appearance of the daytime high-latitude magnetic bays 103Proceedings of Ninth Workshop "Solar Influences on the Magnetosphere, Ionosphere and Atmosphere" Sunny Beach, Bulgaria, May 30 ÷ June 3, 2017 IV C C O O N N T T E E N N T T Solar Influences on the Lower Atmosphere and Climate Author index 133Proceedings of Ninth Workshop "Solar Influences on the Magnetosphere, Ionosphere and Atmosphere" Sunny Beach, Bulgaria, May 30 -June 3, 2017 Topic: Sun and Solar Activity Abstract.The photos of the pre-flare development observed in the spectral lines of highly ionized iron (SDO AIA apparatus) indicate the energy accumulation for a flare in the corona in the pre-flare local (about 1010 cm) high temperature structure. The pre-flare structures in the corona are observed in UV spectral lines of ions FeXXIV, FeXXIII, FeXVIII several hours before big solar flares. During a flare the emission of the UV spectral lines in the corona are increased explosively. These phenomena can be used for prediction of solar cosmic rays. Information obtained from the worldwide neutron monitor network and measurements on GOES spacecraft demonstrates unambiguously that solar cosmic rays are generated in solar flares. These phenomena are well described by the solar flare electrodynamical model, created on the basis of the observational data and the numerical magnetohydrodynamic simulation using the initial and boundary conditions, taken from the active regions observation before the flare. It is impossible to exclude that the similar mechanism of particle acceleration is responsible for galactic cosmic rays generation. Now all published mechanisms of cosmic ray generation are based on unproven assumptions. These assumptions are not confirmed by longterm observations. With the modern concept of cosmic rays, a fundamentally important qu...

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Empirical model of long‐time variations of galactic cosmic ray particle fluxes

2017

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The galactic cosmic ray (GCR) particle flux model has been developed by using the experimental data obtained during the solar cycles 21–24. The model calculates fluxes of GCR particles (with charge z from 1 to 28 and energy E from 80 up to 105 MeV/nucleon) in the interplanetary space (ecliptic plane) as a function of solar activity (sunspot number) and the heliocentric distance. GCR proton fluxes computed by the model for the case of a possible decrease in solar activity during solar cycles 25 and 26 are discussed.

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Heartbeat of the Sun from Principal Component Analysis and prediction of solar activity on a millenium timescale

Cited by 65 publications

References 31 publications

A history of solar activity over millennia

A history of solar activity over millennia

Book of Proceedings: Ninth Workshop, Sunny Beach, Bulgaria, May 30 - June 3, 2017

Empirical model of long‐time variations of galactic cosmic ray particle fluxes

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