Ionospheric disturbances with the time of occurrence, magnitude and location of the earthquake (M6.5) near the Indian subcontinent

Simha, C. P.; Kumar, G. Pavan; Mahesh, P.; Navaneeth, A.; Rao, K. Madhusudhana; Rastogi, B. K.; Sridhar, V.; Shukla, Ashish

doi:10.1007/s11069-013-0816-6

Cited by 3 publications

(2 citation statements)

References 12 publications

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“…TEC is de ned as an electron density pro le amount between two points in a cylinder tube of (1 m 2 ) cross-sectional area, which corresponds to the total number of electrons. The TEC unit is de ned as (TECU) and 1 TECU= 10 16 electron/m 2 (Nayir et al 2007;Simha et al 2014;Xia et al 2011). Determination of the reasonable effects on the ionospheric parameters variation is important.…”

Section: Introductionmentioning

confidence: 99%

Determination of possible responses of Radon-222, magnetic effects, and total electron content to earthquakes on the North Anatolian Fault Zone, Turkiye: an ARIMA and Monte Carlo Simulation

2021

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Around the world, earthquake forecasting studies have become very important nowadays due to the increase in number of fatal earthquakes annually. This paper proposes to achieve a possible relationship between soil radon gas concentration and atmospheric Total Electron Content (TEC) during earthquakes taking into account magnetic effects on the North Anatolian Fault Zone (NAFZ) in Turkiye. The ARIMA and Monte Carlo Simulation (MCS) are employed for determining radon gas concentrations by taking into account magnetic effects as an innovative approach. In the study area relatively small and medium-scale earthquakes have taken place during the observation period. As a result of the investigations, the relationships between each of the parameters and earthquakes are determined, and hence, a good relationship is obtained between Rn gas anomaly and micro-seismic activity. In the ionosphere, geomagnetic activity has a primary impact and long duration on TEC distribution, but due to microseismic events it has rather small in uence. The proposed ARIMA and MCS simulations to detect changes in soil Rn gas concentrations have signi cant results for detecting micro-seismic activity anomalies.

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Section: Introductionmentioning

confidence: 99%

Determination of possible responses of Radon-222, magnetic effects, and total electron content to earthquakes on the North Anatolian Fault Zone, Turkiye: an ARIMA and Monte Carlo Simulation

2021

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Section: Introductionmentioning

confidence: 99%

Determination of Possible Responses of Radon-222, Magnetic Effects, and Total Electron Content to Earthquakes on the North Anatolian Fault Zone, Turkiye: An ARIMA and Monte Carlo Simulation

Mohammed

Külahçı

Muhammad

2021

Preprint

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Around the world, earthquake forecasting studies have become very important nowadays due to the increase in number of fatal earthquakes annually. This paper proposes to achieve a possible relationship between soil radon gas concentration and atmospheric Total Electron Content (TEC) during earthquakes taking into account magnetic effects on the North Anatolian Fault Zone (NAFZ) in Turkiye. The ARIMA and Monte Carlo Simulation (MCS) are employed for determining radon gas concentrations by taking into account magnetic effects as an innovative approach. In the study area relatively small and medium-scale earthquakes have taken place during the observation period. As a result of the investigations, the relationships between each of the parameters and earthquakes are determined, and hence, a good relationship is obtained between Rn gas anomaly and micro-seismic activity. In the ionosphere, geomagnetic activity has a primary impact and long duration on TEC distribution, but due to micro-seismic events it has rather small influence. The proposed ARIMA and MCS simulations to detect changes in soil Rn gas concentrations have significant results for detecting micro-seismic activity anomalies.

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Precursor analysis of ionospheric GPS-TEC variations before the 2010M7.2 Baja California earthquake

Yalçınkaya

2016

Geomatics, Natural Hazards and Risk

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Ionospheric disturbances with the time of occurrence, magnitude and location of the earthquake (M6.5) near the Indian subcontinent

Cited by 3 publications

References 12 publications

Determination of possible responses of Radon-222, magnetic effects, and total electron content to earthquakes on the North Anatolian Fault Zone, Turkiye: an ARIMA and Monte Carlo Simulation

Determination of possible responses of Radon-222, magnetic effects, and total electron content to earthquakes on the North Anatolian Fault Zone, Turkiye: an ARIMA and Monte Carlo Simulation

Determination of Possible Responses of Radon-222, Magnetic Effects, and Total Electron Content to Earthquakes on the North Anatolian Fault Zone, Turkiye: An ARIMA and Monte Carlo Simulation

Precursor analysis of ionospheric GPS-TEC variations before the 2010M7.2 Baja California earthquake

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