Apparatus and method for assembling a damper bearing assembly

What is claimed is: 1. A bearing assembly for a gas turbine engine, said assembly comprising: a spring finger housing comprising a first portion and a second portion, wherein said first portion is substantially perpendicular to said second portion; a damper housing including a radially inner platform comprising an aft face, a forward face, and a radially inner surface positioned therebetween, said damper housing coupled within said spring finger housing such that a first axial gap is defined between said forward face and said first portion; and a spanner nut coupled to a radially inner surface of the second portion, wherein said spanner nut includes a hook portion that defines a second axial gap between said aft face and said hook portion, and wherein said hook portion and said spring finger housing second portion define a radial gap therebetween. 2. The bearing assembly in accordance with claim 1 , wherein said spring finger housing has a substantially U-shaped cross section. 3. The bearing assembly in accordance with claim 1 , wherein said radial gap is contlgured to at least limit separation of said spanner nut and said spring finger housing. 4. The bearing assembly in accordance with claim 1 further comprising a bearing housing coupled to said spring finger housing adjacent said spanner nut. 5. The bearing assembly in accordance with claim 4 further comprising a bearing coupled to said bearing housing. 6. The bearing assembly in accordance with claim 1 , wherein at least one of said spring finger housing, said damper housing, and said spanner nut is an annular ring. 7. The bearing assembly in accordance with claim 1 , wherein said second portion of said spring finger housing and said radially inner surface of said damper platform define a radial clearance therebetween. 8. The bearing assembly in accordance with claim 1 , wherein said first axial gap is configured to dose at a first point on said bearing assembly and said second gap is configured to dose at a second point on said bearing assembly, wherein said first and second axial gaps close simultaneously and said first point is opposite said second point on said annular bearing assembly. 9. A method of assembling a bearing assembly for a gas turbine engine, said method comprising: providing a spring finger housing that includes a first portion and a second portion, wherein the first portion is substantially perpendicular to the second portion; providing a damper housing including a radially inner platform that includes an aft face, a forward face, and a radially inner surface positioned therebetween; coupling the damper housing within the spring finger housing such that a first axial gap is defined between the forward face and the first portion; coupling a spanner nut to a radially inner surface of the second portion, wherein the spanner nut includes a hook portion that defines a second axial gap between the aft face and the hook portion; and simultaneously closing the first axial gap at a first point on the bearing assembly and closing the second axial gap at a second point on the bearing assembly, wherein the first point is opposite the second point on the annular bearing assembly. 10. The method in accordance with claim 9 , wherein the spring finger housing has a substantially U-shaped cross section. 11. The method in accordance with claim 9 , wherein coupling a spanner nut to a radially inner surface of a second portion of the spring finger housing further comprises threadably coupling a spanner nut to a radially inner surface of a second portion of the spring finger housing. 12. The method in accordance with claim 9 , wherein coupling a spanner nut to a radially inner surface of a second portion of the spring finger housing further comprises defining a radial gap between the spring finger housing second portion and the hook portion. 13. The method in accordance with claim 9 further comprising coupling a bearing housing to the spring finger housing adjacent the spanner nut. 14. A rotor assembly comprising: a rotor shaft; and a bearing assembly configured to support said rotor shaft, said bearing assembly comprising: a spring finger housing comprising a first portion and a second portion, wherein said first portion is substantially perpendicular to said second portion; a damper housing including a radially inner platform comprising an aft face, a forward face, and a radially inner surface positioned therebetween, wherein said damper housing coupled within said spring finger housing such that a first axial gap is defined between said forward face and the first portion; a spanner nut coupled to a radially inner surface of the second portion, wherein said spanner nut includes a hook portion that defines a second axial gap between said aft face and said hook portion; and a bearing housing coupled to said spring finger housing adjacent said spanner nut. 15. The rotor assembly in accordance with claim 14 , wherein said spring finger housing has a substantially U-shaped cross section. 16. The rotor assembly in accordance with claim 14 , wherein said hook portion and said spring finger housing second portion define a radial gap therebetween. 17. The rotor assembly in accordance with claim 14 , wherein said first axial gap is configured to close at a first point on said bearing assembly and said second gap is configured to close at a second point on said bearing assembly, wherein said first and second axial gaps dose simultaneously and said first point is opposite said second point on annular bearing assembly.