Swave attenuation structure in Long Valley Caldera, California, from three‐componentS‐to‐Pamplitude ratio data

Abstract

UsingS‐to‐Pamplitude ratios measured from three‐component seismograms we tomographically imaged spatial variations inSwave attenuation in parts of Long Valley caldera. Data from seismograms of local earthquakes in the Long Valley caldera region that occurred during 1984 were employed with theS‐to‐Pamplitude ratio technique with corrections for source radiation pattern to determineQ_S. Resolution is limited throughout most of the model; however, significant resolution and acceptable error in parts of the model allow meaningful interpretation of the results. The primary result is the image of a low‐Q_Sanomaly at 7–8 km depth beneath the resurgent dome. This is independent evidence for high temperatures and possible magma accumulation at this location. Other regions of anomalously lowQ_Sare marginally significant or poorly resolved; of these lowQ_Sat 4–5 km depth beneath the Inyo Domes has the most potential significance. The similarity of the results from the three‐component data and from the vertical‐component data implies that vertical‐component data, which are generally more abundant, can be used with confidence.