True-amplitude, angle-domain, common-image gathers from one-way wave-equation migrations

Autor:	Sheng Xu, Yu Zhang, Norman Bleistein, Guanquan Zhang
Rok vydání:	2007
Předmět:	business.industry Mathematical analysis Inversion (meteorology) Inverse problem Wave equation Seismic wave Geophysics Amplitude Optics Geochemistry and Petrology Deconvolution Reflection coefficient business Geology Imaging condition
Zdroj:	GEOPHYSICS. 72:S49-S58
ISSN:	1942-2156 0016-8033
Popis:	True-amplitude wave-equation migration provides a quality migrated image of the earth’s interior. In addition, the amplitude of the output provides an estimate of the angular-dependent reflection coefficient, similar to the output of Kirchhoff inversion. Recently, true-amplitude wave-equation migration for common-shot data has been proposed to generate amplitude-reliable, shot-domain, common-image gathers in heterogeneous media. We present a method to directly produce angle-domain common-image gathers from both common-shot and shot-receiver wave-equation migration. Generating true-amplitude, shot-domain, common-image gathers requires a deconvolution-type imaging condition using the ratio of the upgoing and downgoing wavefield, each downward-projected to the image point. Producing true-amplitude, angle-domain, common-image gathers requires, instead, the product of the upgoing wavefield and the complexconjugate of the downgoing wavefield in the imaging condition. Since multiplication is a more stable computational process than division, the new methods proposed provide more stable ways of inverting seismic data. Furthermore, the resulting common-image gathers can be directly used for migrated amplitude-variation-with angle analysis and tomography-based velocity analysis. Shot-receiver wave-equation migration requires new true-amplitude, one-way wave equations with one depth variable and transverse variables for the coordinates corresponding to sources and receivers, hence, two transverse coordinates in 2D and four transverse coordinates in 3D. We propose a modified double-square-root one-way wave equation to produce true amplitude common-image angle gathers. We also demonstrate the new methods with some synthetic examples. Some numerical examples show that the new methods we propose give better amplitude performance on the migrated angle gathers.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::fc453207c02d1d8b767136f570b8abc3 https://doi.org/10.1190/1.2399371 Zobrazit plný text záznamu