Fiber optic connector having an optical fiber that is axially moveable within a ferrule

What is claimed is: 1. A fiber optic connector comprising: a ferrule having a front end and a rear end, the ferrule defining an axial bore that extends through the ferrule between the front end and the rear end, the ferrule including a ferrule axis that extends along the axial bore; an optical fiber positioned within the axial bore that is movable relative to the ferrule within the axial bore along the ferrule axis; and a fiber alignment structure attached at a front ferrule end face of the ferrule, the fiber alignment structure defining a fiber passage, the fiber alignment structure having an elastic construction. 2. The fiber optic connector of claim 1 , wherein the fiber alignment structure has an elastic construction that allows at least portions of the alignment structure to elastically move in general radial orientations relative to a fiber insertion axis that extends through the fiber passage. 3. The fiber optic connector of claim 2 , wherein the fiber insertion axis generally aligns with the ferrule axis. 4. The fiber optic connector of claim 2 , wherein the fiber alignment structure includes a plurality of alignment projections having end tips distributed about a circumference of the fiber passage. 5. The fiber optic connector of claim 4 , wherein the alignment projections are attached to flexible elastic beams that deflect when the optical fiber is inserted through the fiber passage. 6. The fiber optic connector of claim 5 , wherein the flexible beams elastically flex relative to a main body of the fiber alignment structure to allow the alignment projections to elastically move radially relative to the fiber insertion axis. 7. The fiber optic connector of claim 6 , wherein the main body defines slots adjacent the flexible beams that enable the beams to flex. 8. The fiber optic connector of claim 1 , wherein the fiber alignment structure is a separate insert/structure that is welded, adhered, bonded, attached or otherwise secured at the front ferrule end face. 9. The fiber optic connector of claim 1 , wherein the fiber optic connector includes a connector body in which the ferrule is mounted, and wherein the optical fiber is fixed relative to the connector body. 10. The fiber optic connector of claim 1 , wherein the fiber optic connector includes a connector body in which the ferrule is mounted, and wherein the optical fiber is fixed relative to the ferrule. 11. The fiber optic connector of claim 9 , wherein a fiber end face is recessed relative to the front ferrule end face when the connector is not in use. 12. The fiber optic connector of claim 9 , wherein a fiber end face is flush relative to the front ferrule end face when the connector is not in use. 13. The fiber optic connector of claim 9 , wherein a fiber end face is forwardly offset from the front ferrule end face when the connector is not in use. 14. The fiber optic connector of claim 1 , wherein the optical fiber includes a ferrule stub fiber. 15. The fiber optic connector of claim 1 , wherein the optical fiber has a fiber end face that has been energy treated to round the fiber end face. 16. The fiber optic connector of claim 15 , wherein the fiber end face has been heat treated by a process selected from the group consisting of: laser irradiation and plasma arc treatment. 17. The fiber optic connector of claim 15 , wherein the optical fiber includes a core and a cladding layer, wherein an end face of the core can have a radius of curvature in the range of 0.14 mm to 4 mm, and an end face of the cladding can have a radius of curvature in the range of 0.4 mm to 4 mm. 18. The fiber optic connector of claim 1 , wherein the optical fiber is axially fixed to an elongated sleeve coupled to a ferrule hub that carries the ferrule. 19. The fiber optic connector of claim 1 , wherein a fixation assembly is at least partially disposed within a ferrule hub that carries the ferrule, the fixation assembly including an anchoring member and a heat recoverable tube. 20. The fiber optic connector of claim 1 , wherein a fixation assembly is disposed within an extension housing coupled to a rear connector body. 21. The fiber optic connector of claim 1 , wherein a fixation assembly is at least partially disposed within a ferrule hub elongated portion, the fixation assembly including an alignment arrangement defining a V-groove. 22. The fiber optic connector of claim 1 , wherein a fixation assembly is disposed within an extension housing coupled to a rear connector body, the fixation assembly including an alignment arrangement defining a V-groove. 23. A fiber optic connector comprising: a ferrule having a front end and a rear end, the ferrule defining an axial bore that extends through the ferrule between the front end and the rear end, the ferrule including a ferrule axis that extends along the axial bore; an optical fiber positioned within the axial bore that is movable relative to the ferrule within the axial bore along the ferrule axis; and a fiber alignment structure attached at a front ferrule end face of the ferrule, the fiber alignment structure including a plurality of alignment projections having end tips distributed about a circumference of a fiber passage through the fiber alignment structure. 24. The fiber optic connector of claim 23 , wherein the alignment projections are attached to flexible elastic beams that deflect when the optical fiber is inserted through the fiber passage. 25. The fiber optic connector of claim 24 , wherein the flexible beams elastically flex relative to a main body of the fiber alignment structure to allow the alignment projections to elastically move radially relative to the fiber insertion axis. 26. The fiber optic connector of claim 25 , wherein the main body defines slots adjacent the flexible beams that enable the beams to flex. 27. A fiber optic connector comprising: a ferrule having a front end and a rear end, the ferrule defining an axial bore that extends through the ferrule between the front end and the rear end, the ferrule including a ferrule axis that extends along the axial bore; an optical fiber positioned within the axial bore that is movable relative to the ferrule within the axial bore along the ferrule axis; characterized in that the ferrule includes a fiber alignment structure attached at a front ferrule end face of the ferrule, the fiber alignment structure defining a fiber passage, the fiber alignment structure having an elastic construction when the optical fiber is inserted through a fiber passage of the fiber alignment structure, the elastic construction allowing at least portions of the alignment structure to elastically move in general radial orientations relative to a fiber insertion axis that extends through the fiber passage, the fiber alignment structure including a plurality of alignment projections having end tips distributed about a circumference of the fiber passage.