Retention arrangement for a rolling element bearing

What is claimed is: 1. A rolling element bearing retention arrangement comprising: an outer ring including: a first inner radial surface having an outer rolling element raceway; an outer radial surface having a first circumferential groove configured with a first cavity; a housing including: a coefficient of thermal expansion greater than a coefficient of thermal expansion of the outer ring; a bore with a second inner radial surface for receiving the outer ring, the second inner radial surface having a second circumferential groove configured with a second cavity; and, a retaining ring received partially by the first and second circumferential grooves, the retaining ring including: a radially inward directed protrusion at a first end engaged with the first cavity; and a radially outward directed protrusion at a second end engaged with the second cavity; and in a first retained state at a first temperature: the outer radial surface is axially and rotationally retained by the second inner radial surface by an interference fit; and, in a second retained state at a second temperature greater than the first temperature: the outer radial surface is axially and rotationally retained by the retaining ring, the first and second circumferential grooves, and the first and second cavities; and, the outer radial surface is separated from the second inner radial surface. 2. The rolling element bearing retention arrangement of claim 1 , further comprising: an inner ring with an outer radial surface having an inner rolling element raceway; and a plurality of rolling elements disposed between the inner and outer rolling element raceways. 3. The rolling element bearing retention arrangement of claim 1 , further comprising a cage having pockets configured to receive and circumferentially space a plurality of rolling elements. 4. The rolling element bearing retention arrangement of claim 1 , wherein the housing is comprised of two portions retained by at least one fastener. 5. The rolling element bearing retention arrangement of claim 1 , wherein in a third transitional retained state at a third temperature, between the first and second temperatures, the outer radial surface of the outer ring is partially axially and rotationally retained by the second inner radial surface of the bore of the housing. 6. A rolling element bearing assembly comprising: an outer ring configured to be received within a bore of a housing, the outer ring including: a first inner radial surface having an outer rolling element raceway; an outer radial surface having a first circumferential groove configured with a first cavity; a retaining ring received partially by the first circumferential groove, the retaining ring including: a radially inward directed protrusion at a first end engaged with the first cavity; and, a radially outward directed protrusion at a second end configured to engage with a second cavity arranged within a second circumferential groove on a second inner radial surface of the bore; and, in a first retained state at a first temperature: the outer radial surface is axially and rotationally retained by the second inner radial surface by an interference fit; and, in a second retained state at a second temperature greater than the first temperature: the outer radial surface is separated from the second inner radial surface; and, the outer radial surface is rotationally retained by the retaining ring, the first and second circumferential grooves, and the first and second cavities; and, wherein a coefficient of thermal expansion of the housing is greater than a coefficient of thermal expansion of the outer ring. 7. The rolling element bearing assembly of claim 6 , further comprising: an inner ring with an outer radial surface having an inner rolling element raceway; and a plurality of rolling elements disposed between the inner and outer rolling element raceways. 8. The rolling element bearing assembly of claim 6 , further comprising a cage having pockets configured to receive and circumferentially space a plurality of rolling elements.