Seismological research is directly related to the incubation, occurrence, and evolution of earthquakes. Scientists seek to reveal potential earthquake precursors by monitoring the stress state of ...

The difference in water content between the lithosphere and the upper layer of Earth’s mantle can explain the observed seismic changes The oceanic lithosphere, which constitutes the top layer ...

New research suggests that the Earth's solid inner core is softer and more dynamic than previously thought, changing ideas.

The sensors used to listen for earthquakes could help protect people from the hazards created by falling spacecraft.

Researchers have mathematically elucidated how the presence of crystals and gas bubbles in magma affects the propagation of seismic P-waves. A novel equation was derived to describe the travel of ...

A common geoscientific misconception is that land-based shear-wave (S-wave) seismic data accounts for only a small percentage of the total amount of compressional-wave (P-wave) data acquired in ...

In a remote corner of East Greenland, a section of mountain gave way, collapsing into a narrow glacial fjord bounded by steep cliffs and long untouched by significant disturbance. The resulting impact ...

The Pacific Northwest Seismic Network (PNSN) has strategically placed six seismic stations throughout Lumen Field. These sensors will measure the ground motion caused by the collective movements of ...

Seismological research is directly related to the incubation, occurrence, and evolution of earthquakes. Scientists seek to reveal potential earthquake precursors by monitoring the stress state of ...