Thermal barrier coating for bearing journal surfaces of rotary shafts

I claim: 1. A bearing system disposed in a hermetically sealed housing, comprising: a rotary shaft comprising: a cylindrical body having a longitudinal axis extending therethrough and an outer radial surface defining a groove at least partially extending radially inward from the outer radial surface toward the longitudinal axis of the cylindrical body to define a depth thereof; and a thermal barrier disposed in the groove and configured to absorb at least a portion of heat generated from rotation of the rotary shaft; and a bearing configured to support the rotary shaft, the bearing comprising: a bearing journal disposed radially outward of the thermal barrier of the rotary shaft, an inner radial surface of the bearing journal and an outer surface of the thermal barrier defining an annular gap, the annular gap configured to permit relative rotation of the rotary shaft; and a first fluid passageway and a second fluid passageway, each defined at least in part by the bearing and extending radially from an enclosure containing the bearing journal to an outer surface of the hermetically sealed housing, the first fluid passageway configured to transport lubricant to the enclosure and the second fluid passageway configured to drain the lubricant from the enclosure, wherein the groove extends axially along at least a portion of the cylindrical body to define an axial length thereof, the groove continuously spans a circumference of the cylindrical body along the axial length of the groove, and the axial length of the groove is greater than an axial length of the enclosure. 2. The bearing system of claim 1 , wherein the outer surface of the thermal barrier is radially aligned with the outer radial surface of the cylindrical body. 3. The bearing system of claim 1 , wherein the thermal barrier comprises a metal oxide. 4. The bearing system of claim 1 , further comprising the lubricant disposed in the annular gap between the bearing journal and the thermal barrier. 5. The bearing system of claim 1 , wherein the depth of the groove is constant along the axial length of the groove. 6. The bearing system of claim 1 , wherein the depth of the groove varies along the axial length of the groove.