Methods and systems to separate seismic data associated with impulsive and non-impulsive sources

The invention claimed is: 1. A process for conducting a marine seismic survey of a subterranean formation using impulsive and non-impulsive sources, the specific improvement comprising; continuously activating the non-impulse source to generate a non-impulsive source wavefield having frequencies in a non-impulsive source band of frequencies and activating the impulse source with time delays to generate impulsive source wavefields, each impulsive source wavefield having frequencies in an impulsive source band of frequencies, the non-impulsive and impulsive bands having an overlap band of frequencies; recording seismic data generated by a receiver that represents a reflected wavefield produced by the subterranean formation response to the impulsive source wavefield and the non-impulsive source wavefield; recording a near-field signature of each impulsive source element of the impulsive source and a near-field signature of each non-impulsive source element of the non-impulsive source; determining an impulsive source far-field signature of the impulsive source at a location of the receiver based on the near-field signatures of the impulsive source elements and a non-impulsive source far-field signature of the non-impulsive source at the location of the receiver based on the near-field signatures of the non-impulsive source elements; and separating the recorded seismic data into impulsive source seismic data and non-impulsive source seismic data based on one of the impulsive source far-field signatures and the non-impulsive source far-field signature, the impulsive source seismic data representing reflections from the subterranean formation over frequencies in the impulsive source band of frequencies and the non-impulsive source seismic data representing reflections from the subterranean formation over frequencies in the non-impulsive source band of frequencies. 2. The method of claim 1 , wherein the seismic data further comprises one of pressure data generated by a pressure sensor and particle motion data generated by a particle motion sensor. 3. The method of claim 1 , wherein the near-field signature of each impulsive source element of the impulsive source further comprises a pressure wavefield measured by a pressure sensor located within the near field of each impulsive source element of the impulsive source. 4. The method of claim 1 , wherein the near-field signature of each non-impulsive source element of the non-impulsive source further comprises a pressure wavefield measured by a pressure sensor located within the near field of each non-impulsive source element of the non-impulsive source. 5. The method of claim 1 , wherein determine the impulsive and non-impulsive source far-field signatures further comprises: computing a notional signature for each impulsive source element of the impulsive source, based on the near-field signatures of the impulsive source elements; computing an impulsive source far-field signature of the impulsive source based on the notional signatures of each impulsive source element; computing a notional signature for each non-impulsive source element of the non-impulsive source, based on the near-field signatures of the non-impulsive source elements; and computing a non-impulsive source far-field signature of the non-impulsive source based on the notional signatures of each non-impulsive source element. 6. The method of claim 1 , wherein separating the seismic data into impulsive source seismic data and non-impulsive source seismic data further comprises: determine the overlap band of frequencies between the impulsive source band of frequencies and the non-impulsive source band of frequencies; and applying simultaneous source separation to separate the seismic data into the impulsive source seismic data and the non-impulsive source seismic data in the overlap band of frequencies; combining the impulsive source seismic data in the overlap band of frequencies with impulsive source seismic data outside the overlap band of frequencies to generate the impulsive source seismic data over the impulsive source band of frequencies; and combining the non-impulsive source seismic data in the overlap band of frequencies with non-impulsive source seismic data outside the overlap band of frequencies to generate the non-impulsive source seismic data over the non-impulsive source band of frequencies. 7. The method of claim 1 , further comprises: computing a time-compression filter based on the non-impulsive far-field signature; and applying the time-compression filter to the non-impulsive seismic data to generate time-compressed non-impulsive seismic data. 8. The method of claim 1 , further comprises generating a geophysical data product from the impulsive source seismic data and the non-impulsive source seismic data. 9. The method of claim 1 , further comprises storing the impulsive source seismic data and non-impulsive source seismic data in a data-storage device.