Self-crimped ribbon fiber and nonwovens manufactured therefrom

That which is claimed: 1. A bicomponent fiber comprising: a continuous self-crimped bicomponent fiber manufactured by a spunbond process and having a rectangular-shaped cross-section and one or more three-dimensional crimps, wherein the continuous self-crimped bicomponent fiber includes a first polymer component and a second polymer component, wherein an aspect ratio of the continuous self-crimped bicomponent fiber is 3.5:1 or greater, and wherein the continuous self-crimped bicomponent fiber is produced upon subjecting a non-crimped rectangular-shaped bicomponent fiber to at least one of a thermal energy and a mechanical force. 2. The bicomponent fiber according to claim 1 , wherein the first polymer component and the second polymer component having an interface that is substantially parallel to a major bisector defining the rectangular-shaped cross-section of the continuous self-crimped bicomponent fiber. 3. The bicomponent fiber according to claim 1 , wherein the first polymer component and the second polymer component having an interface that is substantially perpendicular to a major bisector defining the rectangular-shaped cross-section of the continuous self-crimped bicomponent fiber. 4. The bicomponent fiber according to claim 1 , wherein the mechanical force comprises stretching the non-crimped rectangular-shaped bicomponent fiber. 5. The bicomponent fiber according to claim 1 , wherein the aspect ratio of the continuous self-crimped bicomponent fiber is greater than 4:1. 6. The bicomponent fiber according to claim 1 , wherein a melting point difference between the first polymer component and the second polymer component is at most 15° C. 7. A spunbond nonwoven, comprising: a plurality of continuous self-crimped bicomponent fibers manufactured by a spunbond process and having a rectangular-shaped cross-section and one or more three-dimensional crimps, wherein the continuous self-crimped bicomponent fibers include a first polymer component and a second polymer component; wherein an aspect ratio of the continuous self-crimped bicomponent fibers is 3.5:1 or greater, and wherein the continuous self-crimped bicomponent fibers are produced upon subjecting rectangular-shaped bicomponent fibers to at least one of a thermal energy and a mechanical force. 8. The nonwoven according to claim 7 , wherein the plurality of continuous self-crimped bicomponent fibers are consolidated using at least one of a thermal bond and entanglement. 9. The nonwoven according to claim 7 , wherein the first polymer component and the second polymer component having an interface that is substantially parallel to a major bisector defining the rectangular shape of the bicomponent fiber. 10. The nonwoven according to claim 9 , wherein an aspect ratio of the continuous self-crimped bicomponent fibers is greater than 4:1. 11. The nonwoven according to claim 7 , wherein the first polymer component and the second polymer component having an interface that is substantially perpendicular to a major bisector defining the rectangular-shaped cross-section of the continuous spunbond self-crimped bicomponent fiber. 12. The bicomponent fiber according to claim 11 , wherein an aspect ratio of the continuous self-crimped bicomponent fibers is greater than about 4:1. 13. The nonwoven according to claim 7 , wherein the mechanical force comprises stretching the non-crimped rectangular-shaped bicomponent fibers. 14. The nonwoven according to claim 7 , wherein a melting point difference between the first polymer component and the second polymer component is at most about 15° C. 15. The bicomponent fiber according to claim 1 , wherein the one or more three-dimensional crimps comprise at least one loop portion extending in a z-direction. 16. The bicomponent fiber according to claim 1 , wherein the first polymer component, the second polymer component, or both comprise a polyolefin. 17. The bicomponent fiber according to claim 16 , wherein the first polymer component comprises a first polyolefin and the second polymer component comprises a second polyolefin, wherein the first polyolefin is different than the second polyolefin.