Air cooling shaft at bearing interface

The invention claimed is: 1. A gas turbine engine having at least a spool assembly including at least a compressor rotor and a turbine rotor connected by a shaft assembly, the shaft assembly comprising: a compressor shaft portion connected to the compressor rotor and a turbine shaft portion connected to the turbine rotor; the compressor shaft portion and the turbine shaft portion connected axially together by a shaft coupling between the compressor rotor and the turbine rotor and at least a bearing rotatably coupled to the compressor shaft portion adjacent the shaft coupling; the compressor shaft being provided with fore openings and defining at least one air passage extending fore to aft of the bearing to permit cooling air to enter the at least one air passage via the fore openings to cool a portion of the compressor shaft portion opposite the bearing; and a source of pressurized cooling air in communication with the fore openings to direct such cooling air to the at least one air passage, wherein the compressor shaft is hollow and comprises an inner diameter and a shield inwardly from the shaft inner diameter with the at least one air passage defined therebetween; and further wherein aft openings in the compressor shaft portion communicate the pressurized cooling air from the at least one air passage to the shaft coupling. 2. The gas turbine engine as defined in claim 1 , wherein the source of pressurized cooling air is a pressurized air plenum. 3. The gas turbine engine as defined in claim 1 , wherein the shaft coupling is a spline coupling with additional air passages extending axially through the spline coupling. 4. The gas turbine engine as defined in claim 1 , wherein the bearing is isolated within a bearing housing and a pressurized air plenum is associated with an aft portion of the bearing housing, the plenum being in communication with the aft openings in the compressor shaft portion. 5. The gas turbine engine as defined in claim 1 , wherein the bearing is isolated within a bearing housing and a pressurized cooling air source is provided forward of the bearing housing in communication with the fore openings in the shaft assembly. 6. The gas turbine engine as defined in claim 5 , wherein the fore openings are provided in the compressor shaft portion forward of the bearing housing and the at least one air passage is provided in association with the compressor shaft portion to communicate the pressurized cooling air with the shaft coupling. 7. The gas turbine engine in accordance with claim 6 , wherein the shaft coupling is a spline coupling with air passages extending axially through the spline coupling. 8. The gas turbine engine as defined in claim 1 , wherein an inner race of the bearing is mounted directly onto the compressor shaft portion. 9. A shaft assembly for a gas turbine engine of the type including at least a compressor rotor and a turbine rotor connected by the shaft assembly; the shaft assembly comprising a compressor shaft portion adapted to be connected to the compressor rotor and a turbine shaft portion adapted to be connected to the turbine rotor; the compressor shaft portion and the turbine shaft portion connected axially together by a shaft coupling arranged to be between the compressor rotor and the turbine rotor, the compressor shaft portion adapted to be rotatably coupled to at least a bearing adjacent the shaft coupling; the compressor shaft portion being provided with fore openings and defining at least one air passage extending fore to aft of the bearing to permit cooling air to enter the at least one air passage via the fore openings to cool a portion of the compressor shaft portion opposite the bearing, the compressor shaft being hollow and comprising an inner diameter and a shield inwardly from the shaft inner diameter with the at least one air passage defined therebetween; and further wherein aft openings in the compressor shaft portion communicate the pressurized cooling air from the at least one air passage to the shaft coupling. 10. The shaft assembly as defined in claim 9 , wherein the shaft coupling is a spline coupling with air passages extending axially through the spline coupling. 11. The shaft assembly as defined in claim 9 , further comprising openings in the turbine shaft portion in communication with a source of pressurized cooling air to surround the end of the turbine shaft portion at the shaft coupling. 12. The shaft assembly as defined in claim 11 , wherein the shaft coupling is a spline coupling with air passages extending axially through the spline coupling. 13. The shaft assembly as defined in claim 9 , wherein the fore openings are provided in the compressor shaft portion forward of the location of the bearing and the at least one air passage is provided in association with the compressor shaft portion to communicate the pressurized cooling air with the shaft coupling. 14. The shaft assembly as defined in claim 13 , wherein the shaft coupling is a spline coupling with air passages extending axially through the spline coupling. 15. The shaft assembly as defined in claim 9 , wherein an inner race of the bearing is mounted directly onto the compressor shaft portion.