Fiber carrying structure having laser-induced indicia and related method

What is claimed is: 1. An optical fiber carrying structure comprising: a cable jacket comprising an inner surface and an outer surface, the inner surface defining a central bore extending in a longitudinal direction between first and second ends of the cable jacket, the cable jacket comprising: a primary body portion formed from a first polymer material; a first marking region formed from a second polymer material, the first marking region coupled to the primary body portion and extending along the primary body portion in the longitudinal direction, wherein the second polymer material is different than the first polymer material; and a second marking region formed from the second polymer material, the second marking region coupled to the primary body portion and extending along the primary body portion in the longitudinal direction, wherein the second marking region is spaced along the primary body portion from the first marking region; and indicia formed in at least one of the first marking region and the second marking region, the indicia formed from a laser-induced change to the second polymer material; and an optical communication element located within the central bore and extending in the longitudinal direction between first and second ends of the cable jacket; wherein the optical fiber carrying structure comprises a preferential-bend axis; and wherein the first marking region and the second marking region are located on opposite sides of the preferential-bend axis. 2. The optical fiber carrying structure of claim 1 , wherein the change to the second polymer material comprises a physical change. 3. The optical fiber carrying structure of claim 1 , wherein the first polymer material comprises more than 2.5% carbon black by weight, and wherein the second polymer material comprises less than 2.5% carbon black by weight. 4. The optical fiber carrying structure of claim 1 , wherein the laser-induced change comprises a change in an additive material in the second polymer material. 5. The optical fiber carrying structure of claim 1 , wherein the jacket is an outer jacket, and wherein the outer surface of the jacket defines an outer-most surface of the optical fiber carrying structure. 6. The optical fiber carrying structure of claim 1 , wherein the jacket is a ribbon body that surrounds and supports at least four optical communication elements. 7. The optical fiber carrying structure of claim 1 , wherein the first marking region defines a circumferential arc length of between 30 and 120 degrees. 8. The optical fiber carrying structure of claim 1 , further comprising an interface between the primary body portion and the first marking portion, wherein the indicia are formed at least partially within the first marking portion between the interface and the outer surface of the jacket in a radial direction. 9. The optical fiber carrying structure of claim 1 , wherein the circumferential positioning of the first marking region with respect to the bend axis is constant along the length of the jacket. 10. An optical fiber carrying structure comprising: a jacket comprising an inner surface and an outer surface, the inner surface defining an internal region extending in a longitudinal direction between first and second ends of the jacket, the jacket comprising: an inner polymer layer; an outer polymer layer coupled to the inner polymer layer along an interface; and indicia formed from regions where the outer layer is separated from the inner layer along the interface; and an optical communication element located in the internal region of the jacket; wherein the optical fiber carrying structure comprises a preferential-bend axis defining a first side of the jacket and a second side of the jacket opposite to the first side; and wherein the indicia are located on either the first side of the jacket or the second side of the jacket. 11. The optical fiber carrying structure of claim 10 , wherein the indicia are formed radially interior to an outer-most surface of the outer layer. 12. The optical fiber carrying structure of claim 10 , wherein the inner layer is more opaque than the outer layer. 13. The optical fiber carrying structure of claim 10 , wherein the indicia comprises an aperture defined within the outer layer and formed by a laser. 14. The optical fiber carrying structure of claim 10 , wherein the jacket is a ribbon matrix, wherein the inner polymer layer is a primary ribbon matrix and the outer polymer layer is a secondary ribbon matrix, wherein a plurality of optical communication elements are embedded in and surrounded by the primary ribbon matrix when viewed in longitudinal cross-section and the secondary ribbon matrix is bonded to an outer surface of the primary ribbon matrix. 15. The optical fiber carrying structure of claim 10 , comprising further indicia formed from further regions where the outer layer is separated from the inner layer along the interface, wherein the further indicia are located on an opposite side the jacket from the indicia. 16. A method of manufacturing an optical fiber carrying structure, the method comprising: moving an optical fiber carrying structure to a laser print head, the optical fiber carrying structure comprising an optical communication element, a jacket that radially surrounds the optical communication element, and a preferential-bend axis defining a first side of the jacket and a second side of the jacket, the jacket comprising a marking region; passing the jacket past the laser print head; identifying a position of the marking region on either the first side of the jacket or the second side of the jacket; moving the laser print head relative to the jacket based on the identification of the position of the marking region to align the laser print head with the marking region; and emitting a laser light from the laser print head onto the marking region to form indicia. 17. The method of claim 16 , wherein the laser print head only moves 180 degrees or less to align the laser with the marking region. 18. The method of claim 16 , wherein the optical fiber carrying structure comprises a physical structure that indicates a position of the marking region. 19. The method of claim 18 , wherein the physical structure comprises a plurality of protrusions that indicate the position of the marking region. 20. The method of claim 16 , wherein the method further comprises: passing the optical fiber carrying structure around an arc to position the marking region as a result of bending relative to the preferential bend axis. 21. The method of claim 16 , further comprising: identifying a further position of a further marking region on an opposite side of the jacket from the marking region; moving the laser print head relative to the jacket based on the identification of the further position of the further marking region to align the laser print head with the further marking region; and emitting a laser light from the laser print head onto the further marking region to form further indicia. 22. A method of manufacturing an optical fiber carrying structure, the method comprising: moving an optical fiber carrying structure to a laser print head, the optical fiber carrying structure comprising an optical communication element and a jacket that radially surrounds the optical communication element, the jacket comprising a marking region; passing the jacket past the laser print head; identifying a position of the marking region; mov