Earthquake and hurricane coupling is ascertained by ground-based laser interferometer and satellite observing techniques-Reference-Cited by-同舟云学术

Earthquake and hurricane coupling is ascertained by ground-based laser interferometer and satellite observing techniques

Published:2014-01-30 Issue: Volume: Page:
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Author:

Dubrov M. N.,Volkov V. A.,Golovachev S. P.

Abstract

Abstract. The most destructive disasters such as the strongest earthquakes and the most powerful tropical cyclones can be treated as tightly coupled geophysical phenomena in their origin. Results of comparison of geophysical field variations and seismic activity of the Earth have evidently shown the correlation between lithosphere–atmosphere interactive disturbances, tropical cyclonic activity in the World Ocean, and seismic processes in the solid Earth. The ground-based laser interferometer techniques being supplemented by satellite observational systems can be considered as promising methods for common earthquake and hurricane monitoring and prediction.

Publisher

Copernicus GmbH

Link

https://nhess.copernicus.org/preprints/2/935/2014/nhessd-2-935-2014.pdf

Reference32 articles.

1. Amoruso, A. and Crescentini, L.: The geodetic laser interferometers at Gran Sasso, Italy: recent modifications and correction for local effects J. Geodyn., 48, 120–125, 2009.

2. Benioff, H., Harrison, J. C., LaCoste, L., Munk, W. H., and Slichter, L. B.: Searching for the Earth's free oscillations, J. Geophys. Res., 64, 1334–1337, 1959.

3. Dolgikh, G. I., Kopvillem, U. H., and Pavlov, A. N.: Recording by optical deformometer the interaction of tropical cyclones with ocean by means of seismic channel, Tropical meteorology, Leningrad, Gidrometeoizdat, Proceedings of International Symposium, 231–235, 1982 (in Russian).

4. Dolgikh, G. I., Kopvillem, U. H., and Pavlov, A. N.: Observation of periods of free oscillations of the Earth by laser strainmeter, Izv. AN SSSR, Fiz. Zemli, N2, 15–20, 1983 (in Russian).

5. Dolgikh, G. I., Dubrov, M. N., Dolgikh, S. G., Kovalev, S. N., Ovcharenko, V. V., Savvin, E. A., Chupin, V. A., Shvets, V. A., and Yakovenko, S. V.: Application of laser strainmeters to the study of earthquake physics, Acta Geophys., 54, 187–197, 2006.

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