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Co-seismic geoelectric potential changes observed in Japan (2000)

T. Nagao ; Y. Orihara ; T. Yamaguchi ; [et al.]

In: Geophys. Res. Lett., Colorado Springs, US Air Force Academy, vol. 27, no. 10, pp. 1535-1538, pp. L12S08, (ISSN: 1340-4202)

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Publication Date: 2000

Description: Nagao et al. monitor the geoelectric potential difference between pairs of electrodes (or dipoles) buried at about 2 m depth at several stations in Japan for the purpose of observing co-seismic signals. Studying several recent earthquakes, they report that the signals commence not with the origin time of the earthquakes but with the arrival time of seismic waves. They find two types of co-seismic changes: offset/decay type, which last long after the seismic vibrations cease, and oscillatory type, which decay with the seismic vibrations. They also find that the amplitude of the co-seismic signals does not scale with the dipole length. Also in this issue, Hayakawa et al. [1531] investigate ultra low frequency (ULF) electromagnetic emissions associated with a large earthquake that occurred at Biak Island, Indonesia, in February 1996. Examining data from Biak and Darwin, they find that the ULF emissions observed about 1.5 months before the quake serve as a precursory signature of the earthquake.

Keywords: Earthquake ; Electromagnetic methods/phenomena ; 0699 ; Electromagnetics ; General ; or ; miscellaneous ; 7223 ; Seismology ; Seismic ; hazard ; assessment ; and ; prediction ; 9320 ; Information ; related ; to ; geographic ; region ; Asia ; 9810 ; General ; or ; miscellaneous ; New ; fields ; (not ; classifiable ; under ; other ; headings) ; GRL

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BIBLIOGRAPHY SEISMOLOGY

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ULF electromagnetic precursors for an earthquake at Biak, Indonesia on February 17, 1996 (1999)

M. Hayakawa ; T. Itoh ; K. Hattori ; [et al.]

In: Geophys. Res. Lett., Oxford and Edinburgh, Blackwell Scientific Publications, vol. 27, no. 10, pp. 1531-1534, pp. L23301, (ISBN: 0534351875, 2nd edition)

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Publication Date: 1999

Keywords: Earthquake precursor: prediction research ; Earthquake precursor: el. magn. ; Earthquake ; 0900 ; Exploration ; geophysics ; 0910 ; Data ; processing ; 0925 ; Magnetic ; and ; electrical ; methods ; 7223 ; Seismology ; Seismic ; hazard ; assessment ; and ; prediction ; GRL

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BIBLIOGRAPHY SEISMOLOGY

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Validating of Atmospheric Signals Associated with some of the Major Earthquakes in Asia (2003-2009) (2010)

Hattori, K. ; Pulinets, S. ; Liu, J. Y. ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: The recent catastrophic earthquake in Haiti (January 2010) has provided and renewed interest in the important question of the existence of precursory signals related to strong earthquakes. Latest studies (VESTO workshop in Japan 2009) have shown that there were precursory atmospheric signals observed on the ground and in space associated with several recent earthquakes. The major question, still widely debated in the scientific community is whether such signals systematically precede major earthquakes. To address this problem we have started to validate the anomalous atmospheric signals during the occurrence of large earthquakes. Our approach is based on integration analysis of several physical and environmental parameters (thermal infrared radiation, electron concentration in the ionosphere, Radon/ion activities, air temperature and seismicity) that were found to be associated with earthquakes. We performed hind-cast detection over three different regions with high seismicity Taiwan, Japan and Kamchatka for the period of 2003-2009. We are using existing thermal satellite data (Aqua and POES); in situ atmospheric data (NOAA/NCEP); and ionospheric variability data (GPS/TEC and DEMETER). The first part of this validation included 42 major earthquakes (M greater than 5.9): 10 events in Taiwan, 15 events in Japan, 15 events in Kamchatka and four most recent events for M8.0 Wenchuan earthquake (May 2008) in China and M7.9 Samoa earthquakes (Sep 2009). Our initial results suggest a systematic appearance of atmospheric anomalies near the epicentral area, 1 to 5 days prior to the largest earthquakes, that could be explained by a coupling process between the observed physical parameters, and the earthquake preparation processes.

Keywords: Meteorology and Climatology

Type: GSFC.ABS.5623.2011 , 2010 Western Pacific Geophysics Meeting; Jun 22, 2010 - Jun 25, 2010; Taipei; Taiwan, Province of China

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Evidence for Gravitational Lensing of the Cosmic Microwave Background Polarization from Cross-Correlation with the Cosmic Infrared Background (2014)

Shimon, M. ; Boettger, D. ; Matsumura, T. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: We reconstruct the gravitational lensing convergence signal from Cosmic Microwave Background (CMB) polarization data taken by the Polarbear experiment and cross-correlate it with Cosmic Infrared Background (CIB) maps from the Herschel satellite. From the cross-spectra, we obtain evidence for gravitational lensing of the CMB polarization at a statistical significance of 4.0sigma and evidence for the presence of a lensing B-mode signal at a significance of 2.3sigma. We demonstrate that our results are not biased by instrumental and astrophysical systematic errors by performing null-tests, checks with simulated and real data, and analytical calculations. This measurement of polarization lensing, made via the robust cross-correlation channel, not only reinforces Polarbear auto-correlation measurements, but also represents one of the early steps towards establishing CMB polarization lensing as a powerful new probe of cosmology and astrophysics.

Keywords: Astrophysics

Type: GSFC-E-DAA-TN15348 , Physical Review Letters (ISSN 0031-9007) (e-ISSN 1079-7114); 112; 13; 131302

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Multi-Parameter Observation and Detection of Pre-Earthquake Signals in Seismically Active Areas (2012)

Ouzounov, D. ; Taylor, P. ; Liu, J. Y. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The recent large earthquakes (M9.0 Tohoku, 03/2011; M7.0 Haiti, 01/2010; M6.7 L Aquila, 04/2008; and M7.9 Wenchuan 05/2008) have renewed interest in pre-anomalous seismic signals associated with them. Recent workshops (DEMETER 2006, 2011 and VESTO 2009 ) have shown that there were precursory atmospheric /ionospheric signals observed in space prior to these events. Our initial results indicate that no single pre-earthquake observation (seismic, magnetic field, electric field, thermal infrared [TIR], or GPS/TEC) can provide a consistent and successful global scale early warning. This is most likely due to complexity and chaotic nature of earthquakes and the limitation in existing ground (temporal/spatial) and global satellite observations. In this study we analyze preseismic temporal and spatial variations (gas/radon counting rate, atmospheric temperature and humidity change, long-wave radiation transitions and ionospheric electron density/plasma variations) which we propose occur before the onset of major earthquakes:. We propose an Integrated Space -- Terrestrial Framework (ISTF), as a different approach for revealing pre-earthquake phenomena in seismically active areas. ISTF is a sensor web of a coordinated observation infrastructure employing multiple sensors that are distributed on one or more platforms; data from satellite sensors (Terra, Aqua, POES, DEMETER and others) and ground observations, e.g., Global Positioning System, Total Electron Content (GPS/TEC). As a theoretical guide we use the Lithosphere-Atmosphere-Ionosphere Coupling (LAIC) model to explain the generation of multiple earthquake precursors. Using our methodology, we evaluated retrospectively the signals preceding the most devastated earthquakes during 2005-2011. We observed a correlation between both atmospheric and ionospheric anomalies preceding most of these earthquakes. The second phase of our validation include systematic retrospective analysis for more than 100 major earthquakes (M〉5.9) in Taiwan and Japan. We have found anomalous behavior before all of these events with no false negatives. Calculated false alarm ratio for the for the same month over the entire period of analysis (2003-2009) is less than 10% and was d as the earthquakes. The commonalities in detecting atmospheric/ionospheric anomalies show that they may exist over both land and sea in regions of maximum stress (i.e., along plate boundaries) Our results indicate that the ISTF model could provide a capability to observe pre-earthquake atmospheric/ionospheric signals by combining this information into a common framework.

Keywords: Geophysics

Type: GSFC.CPR.01187.2012 , 33rd General Assembly of the European Seismological Commission; Aug 19, 2012 - Aug 24, 2012; Moscow; Russia

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Multi-Sensors Observations of Pre-Earthquake Signals. What We Learned from the Great Tohoku Earthquake? (2012)

Pulinets, S. ; Kafatos, M. ; Nesterov, I. ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: The lessons learned from the Great Tohoku EQ (Japan, 2011) will affect our future observations and an analysis is the main focus of this presentation. Multi-sensors observations and multidisciplinary research is presented in our study of the phenomena preceding major earthquakes Our approach is based on a systematic analysis of several physical and environmental parameters, which been reported by others in connections with earthquake processes: thermal infrared radiation; temperature; concentration of electrons in the ionosphere; radon/ion activities; and atmospheric temperature/humidity [Ouzounov et al, 2011]. We used the Lithosphere-Atmosphere-Ionosphere Coupling (LAIC) model, one of several possible paradigms [Pulinets and Ouzounov, 2011] to interpret our observations. We retrospectively analyzed the temporal and spatial variations of three different physical parameters characterizing the state of the atmosphere, ionosphere the ground surface several days before the March 11, 2011 M9 Tohoku earthquake Namely: (i) Outgoing Long wave Radiation (OLR) measured at the top of the atmosphere; (ii) Anomalous variations of ionospheric parameters revealed by multi-sensors observations; and (iii) The change in the foreshock sequence (rate, space and time); Our results show that on March 8th, 2011 a rapid increase of emitted infrared radiation was observed and an anomaly developed near the epicenter with largest value occurring on March 11 at 07.30 LT. The GPS/TEC data indicate an increase and variation in electron density reaching a maximum value on March 8. Starting from this day in the lower ionosphere there was also observed an abnormal TEC variation over the epicenter. From March 3 to 11 a large increase in electron concentration was recorded at all four Japanese ground-based ionosondes, which returned to normal after the main earthquake. We use the Japanese GPS network stations and method of Radio Tomography to study the spatiotemporal structure of ionospheric perturbations, and to distinguish ionospheric responses to processes of EQ preparation against the effects of other factors. The 2-D snapshots of the electron density over Japan showed abnormal increase over the maximum stress during the night, a few hours before the main shock. Our results from recording atmospheric and ionospheric conditions during the earthquake indicate the presence of anomalies in the atmosphere and ionospheres occurring consistently over regions of maximum stress near the epicenter. Due to their long duration (hours and days) and spatial appearance (only over the Sendai region) these results do not appear to be caused by meteorological or magnetic activity. They reveal the existence of atmospheric and ionospheric phenomena occurring prior to the earthquake, which indicates new evidence of a distinct coupling between the lithosphere and atmosphere/ionosphere. Similar results have been reported before the catastrophic events in Chile (M8.8, 2010), Italy (M6.3, 2009) and Sumatra (M9.3, 2004).

Keywords: Geophysics

Type: GSFC.ABS.6851.2012 , EMSEV (Electromagnetic Study of Earthquakes and Volcanoes) Meeting 2012; Oct 01, 2012 - Oct 03, 2012; Gotemba, Shizuoka; Japan

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Inter-Disciplinary Validation of Pre Earthquake Signals. Case Study for Major Earthquakes in Asia (2004-2010) and for 2011 Tohoku Earthquake (2012)

Taylor, P. ; Liu, J.-Y. ; Ouzounov, D. ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: We carried out multi-sensors observations in our investigation of phenomena preceding major earthquakes. Our approach is based on a systematic analysis of several physical and environmental parameters, which we found, associated with the earthquake processes: thermal infrared radiation, temperature and concentration of electrons in the ionosphere, radon/ion activities, and air temperature/humidity in the atmosphere. We used satellite and ground observations and interpreted them with the Lithosphere-Atmosphere- Ionosphere Coupling (LAIC) model, one of possible paradigms we study and support. We made two independent continues hind-cast investigations in Taiwan and Japan for total of 102 earthquakes (M〉6) occurring from 2004-2011. We analyzed: (1) ionospheric electromagnetic radiation, plasma and energetic electron measurements from DEMETER (2) emitted long-wavelength radiation (OLR) from NOAA/AVHRR and NASA/EOS; (3) radon/ion variations (in situ data); and 4) GPS Total Electron Content (TEC) measurements collected from space and ground based observations. This joint analysis of ground and satellite data has shown that one to six (or more) days prior to the largest earthquakes there were anomalies in all of the analyzed physical observations. For the latest March 11 , 2011 Tohoku earthquake, our analysis shows again the same relationship between several independent observations characterizing the lithosphere /atmosphere coupling. On March 7th we found a rapid increase of emitted infrared radiation observed from satellite data and subsequently an anomaly developed near the epicenter. The GPS/TEC data indicated an increase and variation in electron density reaching a maximum value on March 8. Beginning from this day we confirmed an abnormal TEC variation over the epicenter in the lower ionosphere. These findings revealed the existence of atmospheric and ionospheric phenomena occurring prior to the 2011 Tohoku earthquake, which indicated new evidence of a distinct coupling between the lithosphere and atmosphere/ionosphere.

Keywords: Geophysics

Type: GSFC.ABS.00411.2012 , 2012 AOGS AGU (WPGM) Joint Assembly; Aug 13, 2012 - Aug 17, 2012; Sentosa; Singapore

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From Multi-Sensors Observations Towards Cross-Disciplinary Study of Pre-Earthquake Signals. What have We Learned from the Tohoku Earthquake? (2012)

Papadopoulos, G. ; Mogi, K. ; Ouzounov, D. ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: The lessons we have learned from the Great Tohoku EQ (Japan, 2011) how this knowledge will affect our future observation and analysis is the main focus of this presentation.We present multi-sensors observations and multidisciplinary research in our investigation of phenomena preceding major earthquakes. These observations revealed the existence of atmospheric and ionospheric phenomena occurring prior to theM9.0 Tohoku earthquake of March 11, 2011, which indicates s new evidence of a distinct coupling between the lithosphere and atmosphere/ionosphere, as related to underlying tectonic activity. Similar results have been reported before the catastrophic events in Chile (M8.8, 2010), Italy (M6.3, 2009) and Sumatra (M9.3, 2004). For the Tohoku earthquake, our analysis shows a synergy between several independent observations characterizing the state of the lithosphere /atmosphere coupling several days before the onset of the earthquakes, namely: (i) Foreshock sequence change (rate, space and time); (ii) Outgoing Long wave Radiation (OLR) measured at the top of the atmosphere; and (iii) Anomalous variations of ionospheric parameters revealed by multi-sensors observations. We are presenting a cross-disciplinary analysis of the observed pre-earthquake anomalies and will discuss current research in the detection of these signals in Japan. We expect that our analysis will shed light on the underlying physics of pre-earthquake signals associated with some of the largest earthquake events

Keywords: Geophysics

Type: GSFC.ABS.5970.2012 , Geophysical Research Abstracts; 14|European Geophysical Union (EGU) General Assembly 2012; Apr 22, 2012 - Apr 27, 2012; Vienna; Austria

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Multi-Sensor Observations of Earthquake Related Atmospheric Signals over Major Geohazard Validation Sites (2012)

Pulinets, S. ; Taylor, P. ; Kafatos, M. ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: We are conducting a scientific validation study involving multi-sensor observations in our investigation of phenomena preceding major earthquakes. Our approach is based on a systematic analysis of several atmospheric and environmental parameters, which we found, are associated with the earthquakes, namely: thermal infrared radiation, outgoing long-wavelength radiation, ionospheric electron density, and atmospheric temperature and humidity. For first time we applied this approach to selected GEOSS sites prone to earthquakes or volcanoes. This provides a new opportunity to cross validate our results with the dense networks of in-situ and space measurements. We investigated two different seismic aspects, first the sites with recent large earthquakes, viz.- Tohoku-oki (M9, 2011, Japan) and Emilia region (M5.9, 2012,N. Italy). Our retrospective analysis of satellite data has shown the presence of anomalies in the atmosphere. Second, we did a retrospective analysis to check the re-occurrence of similar anomalous behavior in atmosphere/ionosphere over three regions with distinct geological settings and high seismicity: Taiwan, Japan and Kamchatka, which include 40 major earthquakes (M〉5.9) for the period of 2005-2009. We found anomalous behavior before all of these events with no false negatives; false positives were less then 10%. Our initial results suggest that multi-instrument space-borne and ground observations show a systematic appearance of atmospheric anomalies near the epicentral area that could be explained by a coupling between the observed physical parameters and earthquake preparation processes.

Keywords: Geophysics

Type: GSFC.ABS.6859.2012 , American Geophysical Union''s 45th Annual Fall Meeting; Dec 03, 2012 - Dec 07, 2012; San Francisco,CA; United States

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Flow properties of concentrated suspensions (1984)

Hattori, K. ; Izumi, K.

In: CASI

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Publication Date: 2019-08-27

Description: The viscosity and flow behavior of a concentrated suspension, with special emphasis on fresh concrete containing a superplasticizer, is analyzed according to Newton's law of viscosity. The authors interpreted Newton's law in a new way, and explain non-Newton flow from Newton's law. The outline of this new theory is given. Viscosity of suspensions, and the effect of dispersants are analyzed.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-TM-77431 , NAS 1.15:77431

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