Disclosed are methods and systems for using a rigid-stem assembly comprising a plurality of interconnected rigid stems in a marine survey. An embodiment discloses a geophysical sensor streamer comprising a rigid-stem assembly comprising a plurality of rigid stems that are interconnected and each com
Disclosed are methods and systems for using a rigid-stem assembly comprising a plurality of interconnected rigid stems in a marine survey. An embodiment discloses a geophysical sensor streamer comprising a rigid-stem assembly comprising a plurality of rigid stems that are interconnected and each comprise a stem body defining one or more interior chambers, wherein a geophysical sensor is incorporated into one or more of the rigid stems.
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1. A sensor streamer comprising: a plurality of rigid stems that are interconnected end-to-end, wherein the rigid stems each comprise a stem body defining one or more interior chambers, wherein a geophysical sensor is incorporated into one or more of the rigid stems,wherein the sensor streamer has a
1. A sensor streamer comprising: a plurality of rigid stems that are interconnected end-to-end, wherein the rigid stems each comprise a stem body defining one or more interior chambers, wherein a geophysical sensor is incorporated into one or more of the rigid stems,wherein the sensor streamer has an open configuration and a closed configuration, wherein the open configuration comprises the plurality of the rigid stems interconnected end-to-end by corresponding flexible connections, wherein the closed configuration comprises a plurality of rigid connections that close the flexible connections between adjacent rigid stems such that the plurality of rigid stems forms a rigid stem assembly. 2. The sensor streamer of claim 1, wherein the rigid stems each have a length in a range of from about 1.5 meters to about 50 meters, and wherein the rigid-stem assembly has a length in a range of from about 50 meters to about 1000 meters. 3. The sensor streamer of claim 1, wherein the rigid-stem assembly is characterized as having a bending stiffness of 700 Nm2 over a length of at least about 25 meters. 4. The sensor streamer of claim 1, wherein air or other gas fills the interior chambers in the stem body. 5. The sensor streamer of claim 1, wherein the plurality of rigid connectors comprises stem joints that are secured between the particular rigid stems that are adjacent to one another to make the rigid-stem assembly more rigid. 6. The sensor streamer of claim 1, wherein the plurality of rigid connectors comprise locking pins that are secured between the particular rigid stems that are adjacent to one another to make the rigid-stem assembly more rigid. 7. The sensor streamer of claim 1, wherein the plurality of rigid connectors comprise rod-and-socket connections that are formed between the particular rigid stems that are adjacent to one another to make the rigid-stem assembly more rigid, wherein a rod from one of the rigid stems is extended into a socket in an adjacent one of the rigid stems. 8. The sensor streamer of claim 1, wherein protective covers are disposed over the flexible connections between the particular rigid stems that are adjacent to one another. 9. The sensor streamer of claim 1, wherein hinges interconnect the particular rigid stems that are adjacent to one another in the open configuration to form the flexible connections, the rigid-stem assembly having the closed configuration in which the flexible connection between the particular rigid stems that are adjacent to one another is made more rigid. 10. The sensor streamer of claim 1, wherein one or more flexible cables interconnect the particular rigid stems that are adjacent to one another in the open configuration to form the flexible connections, the rigid-stem assembly having the closed configuration in which the flexible connection between the particular rigid stems that are adjacent to one another is made more rigid. 11. The sensor streamer of claim 1, wherein at least one of the rigid stems comprises a wing mounted to the stem body. 12. The sensor streamer of claim 1, wherein the geophysical sensor comprises at least one of a seismic sensor or an electromagnetic field sensor. 13. A sensor streamer comprising: a plurality of rigid stems that are interconnected, wherein the rigid stems each comprise a stem body defining one or more interior chambers, wherein a geophysical sensor is incorporated into one or more of the rigid stems,wherein the sensor streamer has an open configuration and a closed configuration, wherein the open configuration comprises the plurality of the rigid stems interconnected end-to-end by corresponding flexible connections, wherein the closed configuration comprises a plurality of rigid connections that close the flexible connections between adjacent rigid stems such that the plurality of rigid stems forms a rigid stem assembly,wherein the rigid-stem assembly is rigid for a length of at least about 25 meters, the rigid-stem assembly having a smallest width or height of about 1 meter or less. 14. A geophysical survey system comprising: a survey vessel; anda sensor streamer comprising a first rigid-stem assembly and a second rigid-stem assembly coupled end-to-end to the first rigid-stem assembly, wherein the first rigid-stem assembly and the second rigid-stem assembly each comprise a plurality of rigid stems, wherein the plurality of rigid stems comprise flexible connections connected end-to-end between adjacent rigid stems and a plurality of rigid connections that close the flexible connections between adjacent rigid stems,wherein the rigid stems each comprise a stem body defining one or more interior chambers. 15. The system of claim 14, wherein the rigid stems each have a length in a range of from about 1.5 meters to about 50 meters, and wherein the rigid-stem assembly has a length in a range of from about 50 meters to about 1000 meters. 16. The system of claim 14, wherein the rigid connectors comprise stem joints that are secured between the particular rigid stems that are adjacent to one another to make the first rigid-stem assembly and the second rigid-stem assembly more rigid. 17. The system of claim 14, wherein the rigid connectors comprise locking pins that are secured between the particular rigid stems that are adjacent to one another to make the first rigid-stem assembly and the second rigid-stem assembly more rigid. 18. The system of claim 14, wherein the rigid connectors comprise a rod-and-socket connection that is formed between the particular rigid stems that are adjacent to one another to make the first rigid-stem assembly and the second rigid-stem assembly more rigid. 19. The system of claim 14, wherein protective covers are disposed over the flexible connections between the particular rigid stems that are adjacent to one another. 20. A sensor streamer comprising a rigid-stem assembly comprising a plurality of rigid stems wherein the plurality of rigid stems comprise flexible connections connected end-to-end between adjacent rigid stems and a plurality of rigid connections that close the flexible connections between adjacent rigid stems and wherein each rigid stem comprises a stem body defining one or more interior chambers, wherein the rigid-stem assembly is about 50 meters to about 1000 meters in length, wherein the plurality of rigid stems are about 3 meters to about 12.5 meters in length, wherein the rigid-stem assembly is characterized as having a bending stiffness of 700 Nm2 over a length of at least about 25 meters; anda geophysical sensor incorporated into one or more of the rigid stems. 21. The sensor streamer of claim 20, wherein air or other gas fills the interior chambers in the stem body. 22. The sensor streamer of claim 20, wherein a rigid-stem assembly is rigid for a length of at least about 25 meters, the rigid-stem assembly having a smallest width or height of about 1 meter or less. 23. The sensor streamer of claim 20, wherein the rigid connections comprise stem joints that are secured between the particular rigid stems that are adjacent to one another to make the rigid-stem assembly more rigid. 24. The sensor streamer of claim 20, wherein the rigid connections comprise locking pins that are secured between the particular rigid stems that are adjacent to one another to make the rigid-stem assembly more rigid. 25. The sensor streamer of claim 20, wherein the rigid connections comprise rod-and-socket connections that are formed between the particular rigid stems that are adjacent to one another to make the rigid-stem assembly more rigid, wherein a rod from one of the rigid stems is extended into a socket in an adjacent one of the rigid stems. 26. The sensor streamer of claim 20, wherein protective covers are disposed over the flexible connections between the particular rigid stems that are adjacent to one another. 27. The sensor streamer of claim 20, wherein hinges interconnect the particular rigid stems that are adjacent to one another in an open configuration to form the flexible connections, the rigid-stem assembly having a closed configuration in which the flexible connection between the particular rigid stems that are adjacent to one another is made more rigid. 28. The sensor streamer of claim 20, wherein one or more flexible cables interconnect the particular rigid stems that are adjacent to one another in an open configuration to form the flexible connections, the rigid-stem assembly having a closed configuration in which the flexible connection between the particular rigid stems that are adjacent to one another is made more rigid. 29. The sensor streamer of claim 20, wherein at least one of the rigid stems comprises a wing mounted to the stem body. 30. The sensor streamer of claim 20, wherein the geophysical sensor comprises at least one of a seismic sensor or an electromagnetic field sensor.
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