Tidal Effects on the Schumann Resonance Amplitudes Recorded by the Global Coherence Monitoring System

Ugnė Orinaitė; Darius Petronaitis; Arvydas Jokimaitis; Mantas Landauskas; Minvydas Ragulskis; Alfonsas Vainoras; Rollin McCarty; Mike Atkinson; Nachum Plonka

doi:10.3390/app14083332

Applied Sciences (Apr 2024)

Tidal Effects on the Schumann Resonance Amplitudes Recorded by the Global Coherence Monitoring System

Ugnė Orinaitė,
Darius Petronaitis,
Arvydas Jokimaitis,
Mantas Landauskas,
Minvydas Ragulskis,
Alfonsas Vainoras,
Rollin McCarty,
Mike Atkinson,
Nachum Plonka

Affiliations

Ugnė Orinaitė: Faculty of Mathematics and Natural Sciences, Kaunas University of Technology, LT-51368 Kaunas, Lithuania
Darius Petronaitis: Faculty of Mathematics and Natural Sciences, Kaunas University of Technology, LT-51368 Kaunas, Lithuania
Arvydas Jokimaitis: Faculty of Mathematics and Natural Sciences, Kaunas University of Technology, LT-51368 Kaunas, Lithuania
Mantas Landauskas: Faculty of Mathematics and Natural Sciences, Kaunas University of Technology, LT-51368 Kaunas, Lithuania
Minvydas Ragulskis: Faculty of Mathematics and Natural Sciences, Kaunas University of Technology, LT-51368 Kaunas, Lithuania
Alfonsas Vainoras: Institute of Cardiology, Lithuanian University of Health Sciences, LT-50162 Kaunas, Lithuania
Rollin McCarty: The HeartMath Institute, Boulder Creek, CA 95006, USA
Mike Atkinson: The HeartMath Institute, Boulder Creek, CA 95006, USA
Nachum Plonka: The HeartMath Institute, Boulder Creek, CA 95006, USA

DOI: https://doi.org/10.3390/app14083332
Journal volume & issue: Vol. 14, no. 8
p. 3332

Abstract

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The main scientific result of this paper is the demonstration of the fact that tidal effects induced by the Moon affect the Schumann resonance amplitudes measured at magnetometers located at different geographical locations of the Global Coherence Monitoring System. Each magnetometer is paired with the closest monitoring station of the global tidal wave measurement network. This paper introduces the Schumann Resonance Complexity Index (SRCI), computed by using the calibrated H-rank algorithm on the local magnetic field data recorded by each magnetometer of the Global Coherence Monitoring System. Tidal wave data recorded at each monitoring station are also used to compute the Tidal Wave Complexity Index (TWCI). Eliminating diel cycles from the SRCI data yields significant statistical correlations between the SRCI and TWCI data, proving the hypothesis of tidal effects on the global network of magnetometers.

Published in Applied Sciences

ISSN: 2076-3417 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Engineering (General). Civil engineering (General); Science: Biology (General); Science: Physics; Science: Chemistry
Website: http://www.mdpi.com/journal/applsci

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