Fractal and Fractional (Jul 2023)

Turbulence Removal in Atmospheric Dynamics through Laminar Channels

  • Iulian-Alin Rosu,
  • Florin Nedeff,
  • Valentin Nedeff,
  • Jose Luis Cueto Ancela,
  • Dragos Constantin Nica,
  • Mihail Frasila,
  • Maricel Agop,
  • Decebal Vasincu

DOI
https://doi.org/10.3390/fractalfract7080576
Journal volume & issue
Vol. 7, no. 8
p. 576

Abstract

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Dynamics in atmospheric structures are analyzed using the Scale Relativity Theory in Schrödinger-type and Madelung-type scenarios. In the Schrödinger-type scenario, the group invariances of the special linear group SL(2R)-type under Riccati-type gauges implies morphological atmospheric manifestations through frequency modulation, particularly through period doubling. In the Madelung-type scenario, the same group invariances type, manifested through harmonic mappings, implies the functionality of atmospheric mass conductions through mass superconducting-type by scale transition from nondifferentiable atmospheric dynamics to differentiable atmospheric dynamics. The compatibility of these two scenarios under the correlations of atmospheric morphologies-functionalities implies Stoler-type coherences of the atmospheric dynamics through the removal of atmospheric turbulence by means of laminar channels. Finally, these theories are successfully employed to analyze the vertical atmospheric dynamics of cases of insect swarms.

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