Short-term Earthquake Prediction Based on Seismic Precursory Electric  Signals Recorded on Ground Surface.

 

    

   

      

CONTENTS

1.

 

Short-term earthquake prediction (monograph by Dr. Thanassoulas, C., 2007).

1.1.

Theoretical analysis:

1.1.1.

In this web site.

1.1.2. 

In PDF downloadable form.

1.2. 

 

Universities and Research Institutions where you can access a hard copy of it.

2.

 

Recent research articles  of EQ prediction interest placed at the database (Physics -Geophysics) of Cornell University, N.Y., USA.

3.

    

 

Earth's electric field, as registered by the PYR, ATH and HIO monitoring sited, in compressed (.rar) downloadable form files.

4.

 

Earth's magnetic field, as

registered by MOP, in

compressed (.rar) down-

loadable files.

5.

Earthquake's catalog of Greece, since 1901.

6.

Greece's seismicity of the last 7 days.

7. 

Athens regional area seismicity of the last 15 days.

8. 

 

Current status of the Earth's electric field at PYR, ATH and HIO monitoring sites.

 

- 1 day's        recording

 

- 7 days                ..

 

- 1 month             ..

 

- 6 months           ..

 

- 12 months         ..

 

- 24 months         ..

 

- Complete dataset since  - 2003.

 

- 1 day period oscillating     electrical signals vs 14     days period tidal 

  waves.

9.

 

Strange attractor seismic precursor determined from ATH, PYR and HIO monitoring sites.

10

Site statistical analysis.

10. 1.

Detailed current month.

10. 2.

Daily visiting countries since 1st November 2004.

10. 3.

 

 Distinguished visitors   (Universities - Research        Organizations).

11.

Who we are.

   
  Home page

 

 

 

“What today seems impossible, is tomorrow’s reality”

                                                                              Dinos

 

M 6.1 - LAOS - 2019-11-20 23:50:44 UTC

Fig. 1. EQ Location (red star, after EMSC) .

 

 

Fig. 2. M1 tidal variation (black line)  v.s time of occurrence (red bar) of the  EQ.

 

Fig. 3. Diurnal  (K2) tidal variation (black line)  v.s time of occurrence (red bar) of the  EQ.

Fig. 4. Expected EQ magnitude due to application of the LSEFM  (Lithospheric Seismic Energy Flow Model) on past (since 1956) seismic history of the regional seismogenic area.

Fig. 5. Expected EQ magnitude due to application of the LSEFM  (Lithospheric Seismic Energy Flow Model) on past (since 2011) seismic history of the regional seismogenic area.


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