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  • {{#category_index:A|acoustic basement}} ...ow which seismic energy returns are poor or absent. Also called <b>seismic basement</b>.
    295 bytes (37 words) - 11:19, 8 December 2017
  • 237 bytes (42 words) - 11:42, 22 July 2019
  • ...,该反射地震能量往往比较微弱或缺失。也称作<b>seismic basement</b>.
    205 bytes (6 words) - 11:52, 29 December 2017
  • {{#category_index:A|acoustic basement}} ...ow which seismic energy returns are poor or absent. Also called <b>seismic basement</b>.
    236 bytes (31 words) - 10:20, 28 March 2018

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  • {{#category_index:A|acoustic basement}} ...ow which seismic energy returns are poor or absent. Also called <b>seismic basement</b>.
    295 bytes (37 words) - 11:19, 8 December 2017
  • {{#category_index:B|basement}} ...es resulting from deeper contrasts are lost in the noise. <b>7. Hydrologic basement</b> is the deepest point where significant porosity exists.
    1 KB (210 words) - 12:55, 30 October 2017
  • Clayton, R. W. and Stolt, R. H., 1981, A Born WKBJ inversion method for acoustic reflection data: Geophysics, Cordell, L. E. and Grauch, V. J. S., 1985, Mapping basement magnetization zones from aeromagnetic data in the
    40 KB (5,282 words) - 17:45, 23 February 2016
  • purely acoustic, with a constant density. The model was used in two internal Amoco reports ...iled that with the noticeable exception of lacking ground roll (since it's acoustic) it looks very
    42 KB (6,465 words) - 18:07, 15 September 2021
  • ...https://doi.org/10.1190/segam2016-13952981.1 “Multicomponent distributed acoustic sensing”] [[Ivan Lim Chen Ning]] co-author: [[Paul Sava]] ....1190/segam2014-1280.1 ''Monitoring hydraulic fracturing using distributed acoustic sensing in a treatment well,''] [[Sudhish Kumar Bakku]]
    3 KB (391 words) - 01:12, 29 September 2019
  • |[[Dictionary:acoustic|acoustic]] |[[basement]]
    12 KB (1,230 words) - 13:53, 9 February 2018
  • ...bsurface boundary across which there is an [[Dictionary:Acoustic_impedance|acoustic impedance]] [[Dictionary:Contrast|contrast]] varies for different source wa ...n [the seismic response to a boundary across which there is an increase in acoustic impedance], a [[Dictionary:Minimum_phase|minimum-phase]] wavelet (top) begi
    10 KB (1,354 words) - 15:12, 8 December 2014
  • Data enhancement can help to emphasize edges that correspond to contrasts in acoustic impedance, magnetic susceptibility, or bulk density. Such contrasts often i ...astern quadrant of about 3.0 mGal corresponding to the location of a large basement outcrop, a northwest-southeast elongated high of about 0.5 mGal in the cent
    11 KB (1,632 words) - 14:24, 14 September 2019
  • {{#category_index:B|basement}} ...es resulting from deeper contrasts are lost in the noise. <b>7. Hydrologic basement</b> is the deepest point where significant porosity exists.
    1 KB (200 words) - 12:56, 30 October 2017
  • {{#category_index:A|acoustic basement}} ...ow which seismic energy returns are poor or absent. Also called <b>seismic basement</b>.
    236 bytes (31 words) - 10:20, 28 March 2018
  • ...separation of the African plate and the South American plate, where the of basement [[Plate tectonics|tectonics]] on the structural evolution was limited by th ...gure 4''': Overpressure zone was estimated by using well log tools such as acoustic and density logs. The over-pressured depth can be detected since we can see
    12 KB (1,862 words) - 13:32, 25 November 2019
  • ...above the level of the receiver. The layered-earth system (lying above the basement rock) then is divided into two subsystems by a horizontal plane passing thr ...the lowermost interface and that no reflected energy is produced from the basement. As a result, the upgoing wave at the lowermost interface is null, and henc
    13 KB (1,917 words) - 16:45, 5 May 2021
  • ...above the level of the receiver. The layered-earth system (lying above the basement rock) then is divided into two subsystems by a horizontal plane passing thr ...the lowermost interface and that no reflected energy is produced from the basement. As a result, the upgoing wave at the lowermost interface is null, and henc
    12 KB (1,844 words) - 16:51, 5 May 2021
  • ...above the level of the receiver. The layered-earth system (lying above the basement rock) then is divided into two subsystems by a horizontal plane passing thr ...the lowermost interface and that no reflected energy is produced from the basement. As a result, the upgoing wave at the lowermost interface is null, and henc
    12 KB (1,839 words) - 16:46, 5 May 2021