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The Sun–Earth connect 1: A fractional d-matrix of solar emissions compared to spectral analysis evidence of solar measurements and climate proxies

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  • Baker, Robert G.V.

Abstract

The possibility that there is a constant ratio underpinning published solar cycles provides an opportunity to explore the harmonics within emission processes. This idea is initially developed by a phenomenological matrix where the elements or emission phases are underpinned by a cyclic fractional dimension d (0.39807) which is shown here to include the fine structure constant (1/137.0356). The Sun’s Carrington synodic rotation (27.275d) multiplied by the inverse of the fine structure constant creates elements of this d-matrix which yields possible sequences of self-similar phase periods between harmonic elements of solar emissions. The periodicities of the Carrington rotation is defined by row 1 (R1) and subsequent rows R2,R3,R4 are the potential phase periods of possible twisting permutations of the tachocline. For solar measurements, the first four rows of the matrix predict at least 98% of the top hundred significant periodicities determined from multi-taper spectral analysis of solar data sets (the satellite ACRIM composite irradiance; the terrestrial 10.7cm Penticton Adjusted Daily Radio Flux, Series D; and the historical mean monthly International Sunspot Number). At centennial and millennial time scales, the same matrix predicts ‘average’ significant periodicities (greater than 95%) reported in 23 published climate data sets. This discovery suggests there is strong empirical evidence for a d-cyclic fractional ‘solar clock’, where the corresponding spectrum of cycles and switching events are embedded into the historical, climatic and geological records of the Earth.

Suggested Citation

  • Baker, Robert G.V., 2016. "The Sun–Earth connect 1: A fractional d-matrix of solar emissions compared to spectral analysis evidence of solar measurements and climate proxies," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 444(C), pages 235-258.
    • Handle: RePEc:eee:phsmap:v:444:y:2016:i:c:p:235-258
    DOI: 10.1016/j.physa.2015.09.099
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    1. R. T. Sutton & M. R. Allen, 1997. "Decadal predictability of North Atlantic sea surface temperature and climate," Nature, Nature, vol. 388(6642), pages 563-567, August.
    2. Gil-Alana, Luis A. & Yaya, OlaOluwa S. & Shittu, Olanrewaju I., 2014. "Global temperatures and sunspot numbers. Are they related?," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 396(C), pages 42-50.
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    Cited by:

    1. Baker, Robert G.V., 2017. "The Sun–Earth connect 2: Modelling patterns of a fractal Sun in time and space using the fine structure constant," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 468(C), pages 508-531.

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