Views: 5 Author: Site Editor Publish Time: 2022-05-09 Origin: Site
How much the ground moves during an earthquake strongly depends on properties of rock and soil just beneath Earth's surface. Modeling studies suggest that ground shaking is amplified in sedimentary basins, on which populated urban areas are often located. However, imaging near-surface structure around urban areas at high resolution has been challenging.
Yang et al. have developed a new approach of using distributed acoustic sensing (DAS) to construct a high-resolution image of near-surface structure. DAS is an emerging technique that can transform existing fiber optic cable into seismic arrays. By monitoring changes in how light pulses scatter as they travel through the cable, scientists can calculate small strain changes in the material surrounding the fiber. In addition to recording earthquakes, DAS has proven useful in a variety of applications, such as naming the loudest marching band at the 2020 Rose Parade and uncovering dramatic changes in vehicular traffic during COVID-19 stay-at-home orders.
Prior researchers repurposed a 10-kilometer stretch of fiber to detect aftershocks following the magnitude 7.1 Ridgecrest earthquake in California in July 2019. Their DAS array detected about six times as many small aftershocks as conventional sensors did during a 3-month period.
Such fine-scale seismic hazard mapping could improve urban seismic risk management, especially in cities where fiber-optic networks may already be present.
Provided by American Geophysical Union