Sams, Mark and Goldberg, David (1990): The validity of Q estimates from borehole data using spectral ratios

Leg/Site/Hole:
ODP 102
DSDP 52
DSDP 53
DSDP 52 418
DSDP 53 418
ODP 102 418
Identifier:
1989-081247
georefid
10.1190/1.1442776
doi
Creator:
Sams, Mark
Imp. Coll., Dep. Geol., London, United Kingdom
author
Goldberg, David
Lamont-Doherty Geol. Obs., United States
author
Identification:
The validity of Q estimates from borehole data using spectral ratios
1990
Geophysics
Society of Exploration Geophysicists, Tulsa, OK, United States
55
1
97-101
The measurement from borehole sonic data of Q, the acoustic attenuation coefficient of an earth section, can be achieved in three ways: forward modeling (Chuen and Toksoez, 1981), spectral ratios (Gladwin and Stacey, 1974), and inversion (Cheng et al., 1986). The spectral-ratio technique has been applied to real data (Goldberg et al., 1985) but is unstable and not very reliable. Experiments have shown that the spectral-ratio technique applied to waveforms gives Q estimates which are lower than those measured from cores in the laboratory (Goldberg and Zinszner, 1989). We investigate this phenomenon using synthetic and real data.
English
Serial
Coverage:Geographic coordinates:
North:25.0207
West:-68.0327East: -68.0326
South:25.0205
Applied geophysics; acoustical methods; Atlantic Ocean; attenuation; body waves; boreholes; data processing; Deep Sea Drilling Project; direct problem; DSDP Site 418; elastic waves; errors; filters; Fourier analysis; geophysical methods; inverse problem; IPOD; Leg 102; Leg 52; Leg 53; Ocean Drilling Program; P-waves; Q; seismic waves; spectral analysis; velocity; waveforms;
.