Solar Activity Influence on the Climate Via Magnetic Turbulence

Elbakidze, Kh.; Kharshiadze, O.; Ghurtchumelia, A.

Please use this identifier to cite or link to this item: http://openlibrary.ge/handle/123456789/10439

Title:	Solar Activity Influence on the Climate Via Magnetic Turbulence
Authors:	Elbakidze, Kh. Kharshiadze, O. Ghurtchumelia, A.
Keywords:	დედამიწა და მის გარსები;გეოფიზიკური პროცესები;Earth and its Envelopes;Geophysical Processes;time series;causality;information transfer;tme reversal;solar wind-magnetosphere–ionosphere system;space weather
Issue Date:	2023
Citation:	საერთაშორისო სამეცნიერო კონფერენცია „დედამიწასა და მის გარსებში მიმდინარე გეოფიზიკური პროცესები“. შრომები, ISBN 978-9941-36-147-0, ივ. ჯავახიშვილის სახ. თბილისის სახელმწიფო უნივერსიტეტის გამომცემლობა, თბილისი, საქართველო, 16–17 ნოემბერი, 2023 წ., გვ. 213-216. International Scientific Conference "Geophysical Processes in the Earth and its Envelopes". Proceedings, ISBN 978-9941-36-147-0, Publish House of Iv. Javakhishvili Tbilisi State University, November 16-17, 2023, pp. 213-216.
Abstract:	Earth’s climate is determined by complex interactions among the Sun, oceans, atmosphere, cryosphere, land surface and biosphere. The Sun is the principal driving force for Earth’s weather and climate. The influence of solar activity on the Earth’s global surface is determined due to temperature variation, which in turn drives the instabilities and is expressed via turbulent effects. Standard approaches to identify such connections are often based on correlations between the appropriate time series. Here we present a novel method Granger causality, which can infer/detect relationships between any two fields. We compare Solar activity – climate connections via magnetic turbulence identified by correlation and Granger causality at different timescales.
URI:	http://openlibrary.ge/handle/123456789/10439
Appears in Collections:	საერთაშორისო სამეცნიერო კონფერენცია „დედამიწასა და მის გარსებში მიმდინარე გეოფიზიკური პროცესები“ - International Scientific Conference "Geophysical Processes in the Earth and its Envelopes" - (2023)

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