2014
DOI: 10.1190/tle33111224.1
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Six-component seismic land data acquired with geophones and rotation sensors: Wave-mode selectivity by application of multicomponent polarization filtering

Abstract: Multicomponent acquisition systems today record incomplete data because they do not measure rotations. Geophones or accelerometers provide linear motion and hydrophones provide pressure, but no current commercial acquisition system includes sensors that measure rotations. Without rotations, the data provide incomplete recording of the wavefield because in three dimensions, there are six degrees of freedom -three linear displacements and three rotations. In two small 2D seismic surveys recorded with six compone… Show more

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Cited by 29 publications
(11 citation statements)
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“…; Barak et al . ). The 5C seismic sensor data are dominated by the horizontal gradient of the vertical ground roll component.…”
Section: Tests and Validationmentioning
confidence: 97%
See 3 more Smart Citations
“…; Barak et al . ). The 5C seismic sensor data are dominated by the horizontal gradient of the vertical ground roll component.…”
Section: Tests and Validationmentioning
confidence: 97%
“…In addition, the horizontal component data often contain strong shear-wave events. More recently it was established that gradient data can be used as a noise model instead (Edme et al 2014;Barak et al 2014). The 5C seismic sensor data are dominated by the horizontal gradient of the vertical ground roll component.…”
Section: Single-station Noise Attenuationmentioning
confidence: 99%
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“…Edme et al (2014) treat rotational data as a noise model for ground roll and use adaptive subtraction to remove ground roll from the vertical component of geophone land data. Barak et al (2014) show that rotation data are extra information, are independent of geophone data, and can be used in conjunction with geophone data to identify and separate wave modes on land using singular-value decomposition polarization analysis. Li and van der Baan (2015) show how to enhance microseismic event localization derived from picked P-and S-wave arrivals in borehole data using the translational and rotational wavefields.…”
Section: Current Applications For Seismic Rotational Datamentioning
confidence: 99%