Roller element bearing with preloaded hydrodynamic cage guides

What is claimed is: 1. A bearing defining a longitudinal centerline extending therethrough, said bearing comprising: an inner ring comprising an outer surface; a cage comprising an inner surface and an outer surface, said cage inner surface in opposition to said inner ring outer surface; an outer ring comprising an inner surface and an outer surface, said outer ring inner surface in opposition to said cage outer surface; and a plurality of rollers positioned within said cage to facilitate relative rotation between said outer ring and said inner ring, wherein one of said inner ring, said cage, and said outer ring comprises a plurality of lobes defining a non-circular circumferential profile, said plurality of lobes comprising a first lobe comprising a substantially circular edge and a lobe edge radially spaced from said substantially circular edge, said lobe edge defining an arc having a substantially constant arcual angularity with respect to a longitudinal line extending through said bearing, wherein the longitudinal line is one of substantially parallel to and substantially coincident with the longitudinal centerline. 2. The bearing in accordance with claim 1 , wherein: said inner ring comprises an inner ring shoulder; and said outer ring comprises an outer ring shoulder. 3. The bearing in accordance with claim 2 , wherein one of said inner ring outer surface, said inner ring shoulder, said cage inner surface, said cage outer surface, said outer ring inner surface, and said outer ring shoulder comprises said plurality of lobes defining the non-circular circumferential profile. 4. The bearing in accordance with claim 3 , wherein a fluid is disposed between each of said inner ring outer surface, said inner ring shoulder, said cage inner surface, said cage outer surface, said outer ring inner surface, and said outer ring shoulder, and wherein the non-circular circumferential profile is configured to facilitate stabilization of said cage by inducing reaction forces between at least one of: said cage inner surface and said inner ring outer surface; said cage inner surface and said inner ring shoulder; said cage outer surface and said outer ring inner surface; and said cage outer surface and said outer ring shoulder. 5. The bearing in accordance with claim 3 , wherein the non-circular circumferential profile is configured to induce reaction forces to increase clearance locally and reduce rubbing between at least one of: said cage inner surface and said inner ring outer surface; said cage inner surface and said inner ring shoulder; said cage outer surface and said outer ring inner surface; and said cage outer surface and said outer ring shoulder. 6. The bearing in accordance with claim 3 , wherein the non-circular circumferential profile and said cage are formed of one or more of a metallic material and a polymer, and wherein the non-circular circumferential profile and said cage are formed by one or more manufacturing technique. 7. A gearbox comprising: a central gear; and a plurality of planetary gears positioned circumferentially about said central gear, each planetary gear of said plurality of planetary gears comprising a bearing, a first planetary gear of said plurality of planetary gears comprising a first bearing defining a longitudinal centerline extending therethrough, said first bearing comprising: an inner ring comprising an outer surface; a cage comprising an inner surface and an outer surface, said cage inner surface in opposition to said inner ring outer surface; an outer ring comprising an inner surface and an outer surface, said outer ring inner surface in opposition to said cage outer surface; and a plurality of rollers positioned within said cage to facilitate relative rotation between said outer ring and said inner ring, wherein one of said inner ring, said cage, and said outer ring comprises a plurality of lobes defining a non-circular circumferential profile, said plurality of lobes comprising a first lobe comprising a substantially circular edge and a lobe edge radially spaced from said substantially circular edge, said lobe edge defining an arc having a substantially constant arcual angularity with respect to a longitudinal line extending through said bearing, wherein the longitudinal line is one of substantially parallel to and substantially coincident with the longitudinal centerline. 8. The gearbox in accordance with claim 7 , wherein: said inner ring comprises an inner ring shoulder; and said outer ring comprises an outer ring shoulder. 9. The gearbox in accordance with claim 8 , wherein one of said inner ring outer surface, said inner ring shoulder, said cage inner surface, said cage outer surface, said outer ring inner surface, and said outer ring shoulder comprises said plurality of lobes defining the non-circular circumferential profile. 10. The gearbox in accordance with claim 9 , wherein a fluid is disposed between each of said inner ring outer surface, said inner ring shoulder, said cage inner surface, said cage outer surface, said outer ring inner surface, and said outer ring shoulder, and wherein the non-circular circumferential profile is configured to facilitate stabilization of said cage by inducing reaction forces between at least one of: said cage inner surface and said inner ring outer surface; said cage inner surface and said inner ring shoulder; said cage outer surface and said outer ring inner surface; and said cage outer surface and said outer ring shoulder. 11. The gearbox in accordance with claim 9 , wherein the non-circular circumferential profile is configured to induce reaction forces to increase clearance locally and reduce rubbing between at least one of: said cage inner surface and said inner ring outer surface; said cage inner surface and said inner ring shoulder; said cage outer surface and said outer ring inner surface; and said cage outer surface and said outer ring shoulder. 12. The gearbox in accordance with claim 9 , wherein the non-circular circumferential profile and said cage are formed of one or more of a metallic material and a polymer, and wherein the non-circular circumferential profile and said cage are formed by one or more manufacturing techniques. 13. A rotary machine comprising: a fan section; a low-pressure turbine section; and a gearbox coupled between said fan section and said low-pressure turbine section, said gearbox comprising a plurality of planetary gears positioned circumferentially about a central gear, each planetary gear of said plurality of planetary gears comprising a bearing, a first planetary gear of said plurality of planetary gears comprising a first bearing defining a longitudinal centerline extending therethrough, said first bearing comprising: an inner ring comprising an outer surface; a cage comprising an inner surface and an outer surface, said cage inner surface in opposition to said inner ring outer surface; an outer ring comprising an inner surface and an outer surface, said outer ring inner surface in opposition to said cage outer surface; and a plurality of rollers positioned within said cage to facilitate relative rotation between said outer ring and said inner ring, wherein one of said inner ring, said cage, and said outer ring comprises a plurality of lobes defining a non-circular circumferential profile, said plurality of lobes comprising a first lobe comprising a substantially circular edge and a lobe edge radially spaced from said substantially circular edge, said lobe edge defining an arc having a substantially constant arcual angularity with respect to a longitudinal line extending through said bearing, wher