Geophysical survey techniques using selective-length processing

What is claimed is: 1. A method, comprising: accessing, by a computer system, seismic data for a geological formation, wherein the seismic data was recorded, using one or more sensors, during a seismic survey in which one or more vibratory sources were used to perform a sweep having a duration that defines an entire sweep time interval; imaging, by the computer system, a first location of the geological formation using a correlation of only a first portion of the sweep with the seismic data, wherein the first portion of the sweep corresponds to a first portion of the sweep time interval, and wherein the first portion of the sweep time interval is smaller than the entire sweep time interval; and imaging, by the computer system, a second location of the geological formation using a correlation of only a second portion of the sweep with the seismic data, wherein the second portion of the sweep corresponds to a second portion of the sweep time interval, and wherein the second portion of the sweep time interval is larger than the first portion of the sweep time interval. 2. The method of claim 1 , wherein the second portion of the sweep time interval corresponds to the entire sweep time interval. 3. The method of claim 1 , wherein imaging the first location generates first imaging data with a first spatial resolution and a first signal-to-noise ratio; and wherein imaging the second location generates second imaging data with a second spatial resolution that is lower than the first spatial resolution and a second signal-to-noise ratio that is greater than the first signal-to-noise ratio. 4. The method of claim 1 , wherein the sweep comprises a linear sweep from a first frequency to a second frequency. 5. The method of claim 1 , wherein the sweep comprises a random sweep that includes a pseudo-random distribution of frequency components within a given frequency range. 6. The method of claim 1 , wherein the first location corresponds to a first depth, and the second location corresponds to a second depth greater than the first depth. 7. A non-transitory, computer-readable medium having instructions stored thereon that are executable by a computer system to perform operations comprising: accessing, by the computer system, seismic data for a geological formation, wherein the seismic data was recorded, using one or more sensors, during a seismic survey in which one or more vibratory sources were used to perform a first sweep having a duration that defines an entire sweep time interval; imaging, by the computer system, a first location of the geological formation using a correlation of only a first portion of the first sweep with the seismic data, wherein the first portion of the first sweep corresponds to a first portion of the sweep time interval, and wherein the first portion of the sweep time interval is smaller than the entire sweep time interval; and imaging, by the computer system, a second location of the geological formation using a correlation of only a second portion of the first sweep with the seismic data, wherein the second portion of the first sweep corresponds to a second portion of the sweep time interval, and wherein the second portion of the sweep time interval is larger than the first portion of the sweep time interval. 8. The non-transitory, computer-readable medium of claim 7 , wherein imaging the first location generates first imaging data with a first spatial resolution and a first signal-to-noise ratio; and wherein imaging the second location generates second imaging data with a second spatial resolution that is lower than the first spatial resolution and a second signal-to-noise ratio that is greater than the first signal-to-noise ratio. 9. The non-transitory, computer-readable medium of claim 7 , wherein the first sweep comprises a linear sweep from a first frequency to a second frequency. 10. The non-transitory, computer-readable medium of claim 7 , wherein the first portion of the first sweep includes fewer frequency components than were included in the entirety of the first sweep. 11. The non-transitory, computer-readable medium of claim 7 , wherein the first location corresponds to a first offset distance between a first of the one or more vibratory sources and a first of the one or more sensors used to record the seismic data; and wherein the second, deeper location corresponds to a second offset distance between the first of the one or more vibratory sources and a second of the one or more sensors used to record the seismic data. 12. The non-transitory, computer-readable medium of claim 7 , wherein, during the seismic survey, the one or more vibratory sources were used to perform a second sweep upon completion of the first sweep; and wherein the operations further comprise imaging, by the computer system, a third location of the geological formation using a correlation of a combination of the first sweep and the second sweep with the seismic data. 13. The non-transitory, computer-readable medium of claim 7 , further comprising: imaging, by the computer system, a third location of the geological formation using a correlation of only a third portion of the first sweep with the seismic data, wherein the third portion of the first sweep corresponds to a third portion of the sweep time interval and the third portion of the sweep time interval is larger than the second portion of the sweep time interval; and wherein the first, second and third locations correspond to first, second and third increasingly larger depths. 14. A method of manufacturing a geophysical data product, the method comprising: towing a plurality of streamers that each include a plurality of seismic sensors; towing one or more vibratory sources; performing, using one or more of the vibratory sources, a first sweep having a duration that defines an entire first time interval; and recording, during the first time interval using the plurality of seismic sensors, seismic data on a tangible, computer-readable medium, thereby creating the geophysical data product, wherein the seismic data is based on seismic signals generated by performing the first sweep; and wherein the seismic data is recorded in a manner that allows processing to: image a first location of a geological formation based on a correlation of only a first portion of the first sweep with the seismic data, wherein the first portion of the first sweep corresponds to first portion of the first time interval, and wherein the first portion of the first time interval is less than the entire first time interval; and image a second location of the geological formation based on a correlation of an entirety of the first sweep with the seismic data; wherein the second location is at a greater depth than the first location. 15. The method of claim 14 , wherein performing the first sweep comprises: driving a first vibratory source to generate the seismic signals, and wherein the seismic signals begin at a first frequency and linearly change to a second frequency. 16. The method of claim 14 , wherein performing the first sweep comprises: driving a first vibratory source to generate the seismic signals, and wherein the seismic signals include a pseudo-random distribution of frequency components within a given frequency range. 17. The method of claim 14 , wherein the one or more vibratory sources includes a low-frequency vibratory source and a high-frequency vibratory source, and wherein performing the first sweep comprises: driving the low-frequency vibratory source for the first portion of the first time interval; and driving the