Evolving towards a critical point: A possible electromagnetic way in which the critical regime is reached as the rupture approaches

Kapiris, P.; Eftaxias, K.; Νομικός, Κωνσταντίνος Δ.; Polygiannakis, J.; Dologlou, E.; Balasis, Georgios; Bogris, N.; Peratzakis, A.; Hadjicontis, V.

doi:10.5194/npg-10-511-2003

Cited by 58 publications

(74 citation statements)

References 76 publications

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“…The exponent H characterizes the persistent/anti-persistent properties of the signal (Kapiris et al, 2003(Kapiris et al, , 2004a. The range 0<H <0.5 (1<β<2) indicates anti-persistency, which means that if the fluctuations increase in a period, it is likely to decrease in the interval immediately following and vice versa.…”

Section: The Transition From Anti-persistent To Persistent Propertiesmentioning

confidence: 99%

From pre-storm activity to magnetic storms: a transition described in terms of fractal dynamics

Balasis

Daglis²,

Kapiris³

et al. 2006

Ann. Geophys.

102

126

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Abstract. We show that distinct changes in scaling parameters of the D st index time series occur as an intense magnetic storm approaches, revealing a gradual reduction in complexity. The remarkable acceleration of energy release -manifested in the increase in susceptibility -couples to the transition from anti-persistent (negative feedback) to persistent (positive feedback) behavior and indicates that the occurence of an intense magnetic storm is imminent. The main driver of the D st index, the V B South electric field component, does not reveal a similar transition to persistency prior to the storm. This indicates that while the magnetosphere is mostly driven by the solar wind the critical feature of persistency in the magnetosphere is the result of a combination of solar wind and internal magnetospheric activity rather than solar wind variations alone. Our results suggest that the development of an intense magnetic storm can be studied in terms of "intermittent criticality" that is of a more general character than the classical self-organized criticality phenomena, implying the predictability of the magnetosphere.

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Section: The Transition From Anti-persistent To Persistent Propertiesmentioning

confidence: 99%

From pre-storm activity to magnetic storms: a transition described in terms of fractal dynamics

Balasis

Daglis²,

Kapiris³

et al. 2006

Ann. Geophys.

102

126

View full text Add to dashboard Cite

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“…6a and c, corresponded to remote and posterior periods, respectively, the N A versus τ dependences exhibit the power law: shown by straight lines in these figures. The power law distribution of waiting times is an indication of the long-time correlation between events: "the system refers to its history in order to define its future" (Kapiris et al, 2003). At the same time, the time sequence of ice-field accelerations does not follow the power law in the immediate time interval before the "catastrophic" perturbation (Fig.…”

Section: Temporal Correlationmentioning

confidence: 99%

Scaling aspects of the sea-ice-drift dynamics and pack fracture

2007

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Abstract.A study of the sea-ice dynamics in the periods of time prior to and during the cycles of basin-wide fragmentation of the ice cover in the Arctic Ocean is presented. The fractal geometry of the ice-sheets limited by leads and ridges was assessed using the satellite images, while the data on the correlated sea-ice motion were obtained in the research stations "North Pole 32" and "North Pole 33" established on the ice pack. The revealed decrease of the fractal dimension as a result of large-scale fragmentation is consistent with the localization of the fracture process (leads propagation). At the same time, the scaling properties of the distribution of amplitudes of ice-fields accelerations were insensitive to the event of sea-ice fragmentation. The temporal distribution of the accelerations was scale-invariant during "quiet" periods of sea-ice drift but disordered in the period of mechanical perturbation. The period of decorrelated (in time) ice-field motion during the important fracture event was interpreted as an inter-level transition in the hierarchic dynamical system. The mechanism of the long-range correlations in the sea-ice cover, including the fracture process, is suggested to be in relation with the self-organized oscillation dynamics inherent in the ice pack.

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“…Some reports including the magnetic field data, are Hayakawa et al (1999Hayakawa et al ( , 2000; Smirnova et al (2001);Telesca et al (2001);Gotoh et al (2003), Ida et al (2005); Ida and Hayakawa (2006) and for the electric signals, Ramirez-Rojas et al (2004a, b); Varotsos et al (2002Varotsos et al ( , 2003a; Kapiris et al (2003Kapiris et al ( , 2004.…”

Section: Introductionmentioning

confidence: 99%

A statistical analysis of electric self-potential time series associated to two 1993 earthquakes in Mexico

Flores-Márquez

Márquez-Cruz

Ramírez-Rojas³

et al. 2007

Nat. Hazards Earth Syst. Sci.

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Abstract. Recent studies related with earthquake prediction involve statistical studies of the ground electric self-potential behavior. Published results about the complexity of this kind of processes encourage us to study the statistical behavior of the ground electric self-potential recorded in Guerrero state, Mexico. This region is characterized by high seismicity. The electric self-potential variations were recorded in the Acapulco station directly from the ground. The sampling period was four seconds and the data were stored from March to December of 1993. Two significant earthquakes (EQs) occurred near this station, 15 May and 24 October whose magnitudes were Mw=6.0 and Mw=6.6 respectively. A preliminary processing was carried out consisting of a moving average of the original time series in order to filter the very high frequencies and to complete short lacks of data and outliers. Then, a visual inspection of the complete filtered signal was performed to search some seismic electric signals (SES), which were ambiguously depicted. Subsequently, a detrending of µ=0 was applied with the windows of 3.3, 6.6 and 10 h. Later, the analysis of the spectral exponent β was made, showing changes during the total period examined, and the most evident changes occurred during the preparation mechanism of the Mw=6.6 EQ. Fifteen days before the 24 October EQ, a Brownian-noise like behavior was displayed (β≈2), having a duration of about two days. In addition a Higuchi fractal method and wavelet analysis were made confirming the presence of the β-anomaly.

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Evolving towards a critical point: A possible electromagnetic way in which the critical regime is reached as the rupture approaches

Cited by 58 publications

References 76 publications

From pre-storm activity to magnetic storms: a transition described in terms of fractal dynamics

From pre-storm activity to magnetic storms: a transition described in terms of fractal dynamics

Scaling aspects of the sea-ice-drift dynamics and pack fracture

A statistical analysis of electric self-potential time series associated to two 1993 earthquakes in Mexico

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