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329570 
Journal Article 
Interpretive advantages of 90°-phase wavelets : Part 1 - Modeling 
Hongliu, Z; Backus, MM 
2005 
Yes 
Geophysics
ISSN: 0016-8033 
70 
C7-C15 
We discuss, in a two-part article, the benefits of 90°-phase wavelets in stratigraphic and lithologic interpretation of seismically thin beds. In Part 1, seismic models of Ricker wavelets with selected phases are constructed to assess interpretability of composite waveforms in increasingly complex geologic settings. Although superior for single surface and thick-layer interpretation, zero-phase seismic data are not optimal for interpreting beds thinner than a wavelength because their antisymmetric thin-bed responses tie to the reflectivity series rather than to impedance logs. Nonsymmetrical wavelets (e.g., minimum-phase wavelets) are generally not recommended for interpretation because their asymmetric composite waveforms have large side lobes. Integrated zero-phase traces are also less desirable because they lose high-frequency components in the integration process. However, the application of 90°-phase data consistently improves seismic interpretability. The unique symmetry of 90°-phase thin-bed response eliminates the dual polarity of thin-bed responses, resulting in better imagery of thin-bed geometry, impedance profiles, lithology, and stratigraphy. Less amplitude distortion and less stratigraphy-independent, thin-bed interference lead to more accurate acoustic impedance estimation from amplitude data and a better tie of seismic traces to lithology-indicative wireline logs. Field data applications are presented in part 2 of this article. (English) 
Amplitude; Plomb; Distorsion amplitude; Stratigraphie; Géométrie; Imagerie; Symétrie; Haute fréquence; Impédance acoustique; Longueur onde; Forme onde; Modèle; Interprétation; lead; amplitude distortion; stratigraphy; geometry; imagery; symmetry; high frequency; acoustical impedance; wavelength; waveforms; models; interpretation; Amplitud; Plomo; Distorsión amplitud; Estratigrafía; Geometría; Imaginería; Simetría; Modelo; Interpretación