Dictionary:C-wave moveout/es: Difference between revisions

Revision as of 21:39, 12 August 2021

Other languages:

English
español

{{#category_index:D|diodic moveout}} Con las secciones de trazas comunes de la onda C, el sobretiempo por distancia no será simétrico y la expresión de tiempo de llegada es ^[1]

t_{C}^{2}=t_{CO}^{2}\left[1+C_{1}\left({\frac {x}{t_{CO}V_{CNMO}}}\right)+{\frac {x^{2}}{t_{CO}^{2}V_{CNMO}^{2}}}+C_{3}\left({\frac {x}{t_{CO}V_{CNMO}}}\right)^{3}-{\frac {C_{4}\left(\displaystyle {\frac {x}{t_{CO}V_{CNMO}}}\right)^{4}}{1+C_{5}\left(\displaystyle {\frac {x}{t_{CO}V_{CNMO}}}\right)^{2}}}\right].

ecuación (5.2.5), Thomsen (2002).

The non-hyperbolic moveout coefficent $C_{1}$ tends to be small and may be ignored for large offsets. Nonhyperbolic moveout parameter $C_{3}$ tends to be positive.

The extra coefficient is defined by

C_{5}={\frac {C_{4}}{\left(1-\displaystyle {\frac {V_{CNMO}^{2}}{V_{P90}^{2}}}\right)}}\qquad {\mbox{where}}\qquad V_{P90}=V_{PNMO}(1+2\eta )

Thus, the moveout equation involves odd as well as even powers of x (see Thomsen, 2002: 5;1-2).

References

↑ Thomsen, L. (2002), Understanding seismic anisotropy in exploration and exploitation, 2002 Distinguished Instructor Short Course, Distinguished Instructor Series, No. 5, Society of Exploration Geophysicists

[1] Thomsen, L. (2002), Understanding seismic anisotropy in exploration and exploitation, 2002 Distinguished Instructor Short Course, Distinguished Instructor Series, No. 5, Society of Exploration Geophysicists

[1]

@@ Line 10: / Line 10: @@
 </math> </center>
-equation (5.2.5), Thomsen (2002).
+ecuación (5.2.5), Thomsen (2002).
 The non-hyperbolic moveout coefficent <math> C_1 </math> tends to be small and may be ignored for large offsets. Nonhyperbolic moveout parameter <math> C_3</math> tends to be positive.

Dictionary:C-wave moveout/es: Difference between revisions

Revision as of 21:39, 12 August 2021

References

Navigation menu

Search