Connector for multiple core optical fiber

The invention claimed is: 1. A multi-core fiber connector comprising: a ferrule with a bore therein, said bore being sized to hold a multi-core fiber; a ferrule barrel surrounding at least a portion of said ferrule, said ferrule barrel including first and second splines extending away from an outer peripheral surface of said ferrule barrel; a first collar surrounding said ferrule on a first side of said ferrule barrel, said first collar including first and second notches to receive said first and second splines and allowing said first and second splines to slide therein, said first collar including first and second tabs protruding away from a surface of said first collar; a second collar surrounding said ferrule, said second collar including third and fourth notches to receive said first and second tabs and allowing said first and second tabs to slide therein; and a connector housing having an inner cavity receiving said second collar, wherein said second collar is adhered to said inner cavity. 2. The connector of claim 1 , further comprising: an extender surrounding an exit opening of said bore in said ferrule to a rear of said ferrule barrel, said extender being located on an opposite side of said ferrule barrel as compared to said first collar, wherein said extender is attached to said inner cavity of said connector housing. 3. The connector of claim 2 , further comprising: a spring interposed between said ferrule barrel and said extender. 4. The connector of claim 1 , wherein said ferrule barrel, said first collar and said second collar are all formed of metal. 5. The connector of claim 1 , wherein said first and second splines are located approximately one hundred eighty degrees apart along said outer peripheral surface of said ferrule barrel, and wherein said first and second tabs are located approximately one hundred eighty degrees apart along said surface of said first collar, and wherein the first and second tabs are offset by approximately ninety degrees relative to the first and second notches. 6. A multi-core fiber connector comprising: a ferrule; a multi-core fiber secured within said ferrule; a ferrule barrel surrounding at least a portion of said ferrule, said ferrule barrel including at least one spline extending away from an outer peripheral surface of said ferrule barrel; and at least one notch receiving said at least one spline and permitting said at least one spline to move within said at least one notch in a first direction which is substantially parallel to an extension direction of said ferrule, wherein said ferrule barrel is a first ferrule barrel and said portion of said ferrule is a first portion of said ferrule; and wherein said first ferrule barrel is pressed fitted onto said first portion of said ferrule, such that said ferrule can turn within said first ferrule barrel once a first frictional coefficient existing between said ferrule and said first ferrule barrel is overcome. 7. The connector of claim 6 , further comprising: a second ferrule barrel surrounding at least a second portion of said ferrule, wherein rotation of said second ferrule barrel causes said ferrule to rotate within said first ferrule barrel. 8. The connector of claim 7 , wherein said second ferrule barrel is pressed fitted onto said second portion of said ferrule, and wherein a second frictional coefficient exists between said ferrule and said second ferrule barrel, and wherein the second frictional coefficient is greater than the first frictional coefficient. 9. The connector of claim 7 , wherein said second ferrule barrel is adhered to said ferrule. 10. The connector of claim 9 , further comprising: a tube attached to said second ferrule barrel, wherein said tube includes features for engagement by a tool to rotate said tube, and wherein rotation of said tube causes corresponding rotation of said second ferrule barrel and said ferrule. 11. The connector of claim 7 , further comprising: a tube attached to said second ferrule barrel, wherein said tube includes features for engagement by a tool to rotate said tube, and wherein rotation of said tube causes corresponding rotation of said second ferrule barrel and said ferrule. 12. A multi-core fiber connector comprising: a ferrule; a multi-core fiber secured within said ferrule; a ferrule barrel surrounding at least a portion of said ferrule, said ferrule barrel including four splines extending away from an outer peripheral surface of said ferrule barrel, said splines being equally spaced around said peripheral surface of said ferrule barrel at intervals of ninety degrees; four notches receiving said four splines and permitting said four splines to move within said four notches in a first direction which is substantially parallel to an extension direction of said ferrule; a strength member surrounding the multi-core fiber to a rear of said ferrule barrel, said strength member including four notches receiving said four splines; and a connector housing having a rectangular cross section with an inner cavity receiving said ferrule barrel and said strength member, wherein said strength member is attached directly or indirectly to said connector housing such that said four notches and said four splines are generally aligned to four corners of said rectangular cross section of said connector housing. 13. The connector of claim 12 , further comprising: an extender surrounding said strength member, and wherein said strength member is adhered to said extender, and said extender is attached to a portion of said inner cavity of said connector housing. 14. The connector of claim 12 , further comprising: a tube located between said strength member and the multi-core fiber to the rear of said ferrule barrel; and a spring surrounding said tube and residing between said ferrule barrel and a portion of said strength member and biasing said ferrule barrel away from said portion of said strength member. 15. The connector of claim 7 , further comprising: a connector housing having an inner cavity receiving said first ferrule barrel. 16. The connector of claim 15 , further comprising: teeth attached to an exterior of said second ferrule barrel; and an opening in a side of said connector housing providing access to said teeth, wherein said teeth may be engaged to impart a rotation to said second ferrule barrel and cause said second ferrule barrel to rotate in order to cause alignment of cores of the multi-core fiber. 17. The connector of claim 15 , wherein said inner cavity includes said at least one notch receiving said at least one spline. 18. The connector of claim 17 , further comprising: teeth attached to an exterior of said second ferrule barrel; and an opening in a side of said connector housing providing access to said teeth, wherein said teeth may be engaged to impart a rotation to said second ferrule barrel and cause said second ferrule barrel to rotate in order to cause alignment of cores of the multi-core fiber. 19. The connector of claim 9 , further comprising: a connector housing having an inner cavity receiving said first ferrule barrel and wherein said inner cavity includes said at least one notch receiving said at least one spline. 20. The connector of claim 19 , further comprising: teeth attached to an exterior of said second ferrule barrel; and an opening in a side of said connector housing providing access to said teeth, wherein said teeth may be engaged to impart a rotation to said second ferrule barrel and cause said second fe