Abstract
Measurements of bottom-interacting signals over a frequency range of 4-12 kHz were made at two different sites in shallow water off the southeast coast of Korea. Although the distance between the sites was less than 20 km, the geological properties of surficial sediments were different. The surficial sediment at the site located on the north side was dominated by mud, and the measured bottom loss showed typical characteristics of sediment with a sound speed lower than the water sound speed. In addition, some interesting arrivals, which seemed to be reflected from a sub-sediment interface, were observed immediately following bottom arrivals in the frequency range of 4-8 kHz of some datasets. In contrast, sediment at the site located to the south was dominated by sandy mud, and the bottom loss showed typical characteristics of sediment with a higher sound speed. Geoacoustic parameters of surficial sediment were estimated using a simulated annealing method with an objective function comparing the measured bottom loss data with the Rayleigh reflection model. Surficial layer thickness was estimated based on arrival-time differences between bottom reflected and sub-bottom reflected signals. Inversion results are discussed in comparison with a bottom model constructed based on seismic data and core samples.
Highlights
This paper presents the results of bottom reflection measurements taken at two sites located at the entrance to Jinhae Bay in Southeast Korea
Measurements of bottom-interacting signals over a frequency range of 4–12 kHz were made at two different sites in shallow water
Although the distance between the sites was less than 20 km
Summary
The experiment was designed to measure the bottom loss, expressed by À20 log10jRj, where R is a plane wave reflection coefficient for the water-sediment interface, as a function of the grazing angle. The results were consistent with the surficial sediment classification of the KIER (Ref. 1) and sediment grain-size analysis results obtained via core samples taken by the Agency of Defense Development and the Korea Institute of Geoscience and Mineral Resources.[3]. The results of seismic surveys including chirp, sub-bottom profiler, sparker, and air-gun profiles conducted previously on Jinhae Bay by several research institutes[3] provided potential comparisons with our results. These comparative results led to the follow-up experiment at site 2
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