Solar System Planets and Exoplanets 2021
DOI: 10.5772/intechopen.96450
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Millennial Oscillations of Solar Irradiance and Magnetic Field in 600–2600

Abstract: Daily ephemeris of Sun-Earth distances in two millennia (600–2600) showed significant decreases in February–June by up to 0.005 au in millennium M1 (600–1600) and 0.011au in millennium M2 (1600–2600). The Earth’s aphelion in M2 is shorter because shifted towards mid-July and longer because shifted to mid January naturally explaining two-millennial variations (Hallstatt’s cycle) of the baseline solar magnetic field measured from Earth. The S-E distance variations are shown imposed by shifts of Sun’s position to… Show more

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Cited by 6 publications
(36 citation statements)
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References 55 publications
(126 reference statements)
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“…Let us now apply the Morlet wavelet and Fourier analysis to the solar irradiance data. In Figure 10 Bottom plot: the unnormalised solar irradiance (Y-axis) recovered for the holocene [83,38] versus calendar years (X-axis), which demonstrates weak oscillations in the filtered (red) line with a period of about 2200 -2300 years, similar to those reported in our unfairly retracted paper [84] and confirmed later with the real Sun-Earth ephemeris [85]. left plot and the Fourier spectrum derived from this solar irradiance curve.…”
Section: Periods Detected In Oscillations Of Solar Irradiancesupporting
confidence: 74%
“…Let us now apply the Morlet wavelet and Fourier analysis to the solar irradiance data. In Figure 10 Bottom plot: the unnormalised solar irradiance (Y-axis) recovered for the holocene [83,38] versus calendar years (X-axis), which demonstrates weak oscillations in the filtered (red) line with a period of about 2200 -2300 years, similar to those reported in our unfairly retracted paper [84] and confirmed later with the real Sun-Earth ephemeris [85]. left plot and the Fourier spectrum derived from this solar irradiance curve.…”
Section: Periods Detected In Oscillations Of Solar Irradiancesupporting
confidence: 74%
“…Zharkova VV, Shepherd SJ, Popova E, et al [20,21] published their work in 2015. They used principal component analysis and Eureqa artificial intelligence software to predict solar activity on a millennium timescale.…”
Section: Circle 10 Zharkova and Shepherdmentioning
confidence: 99%
“…29,30 On the other hand, in the past few hundred years the Sun was shown to provide some additional radiation to the Earth by moving closer towards the Earth orbit because of the solar inertial motion (SIM) caused by the gravitation of large planets. 38,39 These periodic variations of the Sun-Earth distance, and the solar irradiance, occur every 2100-2200 years, called Hallstatt's cycles, which were independently derived from the isotope abundances in the terrestrial biomass. 40,41 In the current Hallstatt's millennial cycle, the Sun-Earth distances are decreasing from the MM until 2600 that leads to the increase of solar irradiance deposited to the atmosphere of the Earth (and other planets).…”
Section: Introductionmentioning
confidence: 99%
“…40,41 In the current Hallstatt's millennial cycle, the Sun-Earth distances are decreasing from the MM until 2600 that leads to the increase of solar irradiance deposited to the atmosphere of the Earth (and other planets). 39 This SIM effect contributes to the terrestrial atmosphere heating, in addition to any heating caused by the greenhouse gasses considered in the terrestrial models.…”
Section: Introductionmentioning
confidence: 99%
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