Wednesday, July 8, 2026

GeophysicsTech InsightsTopic of the Month

Residual Eta Gradient as seismic quantitative interpretation tools to identify reservoir anomaly in exploration stage: Case study in the deep-water Sadewa Field

July 1, 2026
DOI: https://doi.org/10.3997/1365-2397.fb2026048

This study uses seismic anisotropy Eta (η) and its association with lithological and fluid effects through Residual Eta (ηRES). Residual Eta’s capability to detect lithology and fluids is supported by a comparison to Poisson’s Impedance, an elastic parameter. To increase the sensitivity of Residual Eta, the Residual Eta Gradient (ηGRAD) is calculated as a function of time. Derivatives or gradients can identify subtle changes that are not immediately visible. The Residual Eta Gradient correlates well with Poisson’s Impedance Step Function, an elastic characteristic that affects Residual Eta. An abrupt change in the Residual Eta Gradient corresponds to large changes in the water table during sediment deposition, such as the boundary between electrofacies in INPEFA Gamma-ray data. The Residual Eta Gradient, which is influenced by lithology and fluids, can be used as an alternative physical measure for initial reservoir identification scanning during the hydrocarbon exploration phase. Residual Eta Gradient, a seismic data processing product, does not require well-processed seismic or well data to be used. Residual Eta Gradient’s amplitude independence is one of its advantages, as it avoids misunderstandings caused by non-pre-served amplitude or decay.