ATR full ring sliding nacelle

The invention claimed is: 1. A gas turbine engine comprising: a first annular portion that is stationary and adapted for partially surrounding an engine core, wherein the first annular portion includes: a fore pylon connecting portion; and a fore bi-fi comprising an upper fore portion located radially above the engine core, and a lower fore portion located radially below the engine core; a rail coupled to the fore pylon portion and extending in the aft direction from the stationary portion; and a second annular portion, aft of the first portion and coupled to the rail, the second annular portion being movable along an engine core centerline between a closed position and at least one open position, wherein the second annular portion comprises an aft bi-fi comprising an upper aft portion and a lower aft portion, wherein the aft bi-fi is configured to engage with the fore bi-fi when the gas turbine engine is in the closed position. 2. The gas turbine engine of claim 1 , wherein the fore bi-fi and the aft bi-fi are configured to enclose a plurality of external core features in the closed position. 3. The gas turbine engine of claim 1 , wherein the fore bi-fi and the aft bi-fi are disengaged to allow access to a plurality of external core features in a partially open position. 4. The gas turbine engine of claim 1 , wherein the first annular portion and the second annular portion are separated by a distance sufficient to allow removal of the engine core when the second annular portion is arranged in the fully open position. 5. The gas turbine engine of claim 1 , wherein the fore bi-fi and the aft bi-fi form an airfoil having low camber in the closed position. 6. The gas turbine engine of claim 5 , wherein the second annular portion further comprises an aft pylon connecting portion configured to engage with the fore pylon connecting portion when the gas turbine engine is in the closed position. 7. The gas turbine engine of claim 1 , and further comprising an engagement mechanism capable of engaging the second annular portion and the first annular portion when the second annular portion is arranged in the closed position. 8. The gas turbine engine of claim 1 , wherein the rail comprises a dual-track system. 9. A method for obtaining access to components of a gas turbine engine, the method comprising: disengaging a first annular portion from a second annular portion, wherein the first annular portion includes a fore bi-fi, and wherein the fore bi-fi comprises an upper fore portion located radially above the engine core, and a lower fore portion located radially below the engine core; and sliding the second annular portion in an aft direction from a closed position to a partially open position, wherein the second annular portion includes an aft bi-fi comprising an upper aft portion and a lower aft portion, wherein the aft bi-fi is configured to engage with the fore bi-fi when the second annular portion is in the closed position. 10. The method of claim 9 , wherein a plurality of engine externals are accessible in the partially open position. 11. The method of claim 10 , and further comprising sliding the second annular portion in the aft direction to a fully open position. 12. The method of claim 11 , wherein a core of the gas turbine engine is accessible in the fully open position. 13. The method of claim 12 , and further comprising dropping the core from the gas turbine engine in the fully open position. 14. The method of claim 9 , and further comprising sliding the second annular portion in a fore direction to the closed position. 15. The method of claim 14 , and further comprising engaging the second annular portion and the first annular portion.