Theory of supervirtual refraction interferometry

Abstract: S U M M A R YInverting for the subsurface velocity distribution by refraction traveltime tomography is a wellaccepted imaging method by both the exploration and earthquake seismology communities. A significant drawback, however, is that the recorded traces become noisier with increasing offset from the source position, and so accurate picking of traveltimes in far-offset traces is often prevented. To enhance the signal-to-noise ratio (SNR) of the far-offset traces, we present the theory of supervirtual refract… Show more

“…The first stage involves crosscorrelation of traces recorded from postcritical sources to generate virtual traces, and the second stage is the convolution of the virtual traces with the raw traces (i.e traces before crosscorrelation) to create the supervirtual traces (Bharadwaj et al, 2012). However, the process of convolving the enhanced traces with the raw traces re-introduces certain proportion of noise back into the data by generating side lobes (Alshuhail et al, 2012) around the maximum amplitude of the enhanced traces.…”

Three-dimensional supervirtual seismic refraction interferometry

“…The first stage involves crosscorrelation of traces recorded from postcritical sources to generate virtual traces, and the second stage is the convolution of the virtual traces with the raw traces (i.e traces before crosscorrelation) to create the supervirtual traces (Bharadwaj et al, 2012). However, the process of convolving the enhanced traces with the raw traces re-introduces certain proportion of noise back into the data by generating side lobes (Alshuhail et al, 2012) around the maximum amplitude of the enhanced traces.…”

Three-dimensional supervirtual seismic refraction interferometry

“…An example of non-physical arrivals are the so-called virtual refractions (e.g. Dong et al, 2006;Tatanova et al, 2008;Mikesell et al, 2009;Bharadwaj et al, 2011). These non-physical events can be identified, as they pass through the virtual-source position at 0 s and have a linear moveout.…”

Monitoring CO2 storage using ghost reflections retrieved from seismic interferometry

“…Supervirtual interferometry is a novel technique to increase the signal-to-noise ratio (S/N) of far-offset refracted waves (Bharadwaj et al, 2012). With this technique, the receiver spread of the refraction survey can be fully used if we are only interested in the traveltime information.…”

“…This mapping is generally applicable to reflection seismic data, such as surface seismic profile (SSP) and vertical seismic profile (VSP), both of which are typically considered in seismic interferometry (Schuster and Zhou, 2006). This mapping is also applicable to refraction geometry used in the recent work of supervirtual interferometry (Mallison et al, 2011;Bharadwaj et al, 2012). Numerous methods using this transform have been investigated for seismic wave filtering (Tatham, 1989), multiple attenuation (Liu et al, 2000), seismic forward modeling (Vigh and Starr, 2008;Tao and Sen, 2013a), migration (Stoffa et al, 2006), and inversion (Sen et al, 2003).…”

On a plane-wave based crosscorrelation-type seismic interferometry