Centrifugal pendulum absorber including a geared roller

What is claimed is: 1. A centrifugal pendulum absorber comprising: a flange; a first mass slidably attached on a first axial side of the flange; a second mass slidably attached on a second axial side of the flange; and a roller received in a slot formed in the flange, a slot formed in the first mass and a slot formed in the second mass, the roller being geared to the flange and at least one of the first and second masses, wherein the roller is geared to the flange outside of the slot formed in the flange. 2. A centrifugal pendulum absorber comprising: a flange; a first mass slidably attached on a first axial side of the flange; a second mass slidably attached on a second axial side of the flange; and a roller received in a slot formed in the flange, a slot formed in the first mass and a slot formed in the second mass, the roller being geared to the flange and at least one of the first and second masses, wherein the first mass includes mass teeth provided thereon and the roller includes first roller teeth intermeshed within the mass teeth; wherein the flange includes flange teeth provided thereon and the roller includes second roller teeth intermeshed with the flange teeth, wherein the first mass includes a mass rack including the mass teeth. 3. The centrifugal pendulum absorber as recited in claim 2 wherein the flange includes a flange rack including the flange teeth, the mass rack, the flange rack, the first roller teeth and the second roller teeth forming a rack and pinion connection. 4. The centrifugal pendulum absorber as recited in claim 3 wherein the mass rack is axially offset from the flange rack. 5. The centrifugal pendulum absorber as recited in claim 2 wherein the roller includes a base portion received in the slot formed in the flange, a first protrusion extending axially from the base portion and being received in the slot formed in the first mass and a second protrusion extending axially from the base portion and being received in the slot formed in the second mass, the first protrusion being provided with the first roller teeth and the second roller teeth. 6. The centrifugal pendulum absorber as recited in claim 2 wherein the slot formed in the flange, the slot formed in the first mass and the slot formed in the second mass are non-arcuate. 7. The centrifugal pendulum absorber as recited in claim 2 wherein the slots formed in the flange, the first mass and the second mass have a negative curvature with respect to a center axis of the centrifugal pendulum absorber. 8. A torque converter comprising: a damper assembly including the centrifugal pendulum absorber as recited in claim 2 . 9. The torque converter as recited in claim 8 further comprising a lockup clutch and a turbine, the damper assembly connecting the lockup clutch and turbine. 10. A method of forming a centrifugal pendulum absorber comprising: gearing a roller to a flange of the centrifugal pendulum absorber and to a mass slidably attached to an axial side of the flange, the roller being received in a slot formed in the flange and a slot formed in the mass, wherein the gearing of the roller to the flange includes intermeshing flange teeth provided on the flange with teeth of the roller, wherein the flange includes a flange rack including the flange teeth. 11. The method as recited in claim 10 wherein the gearing of the roller to the mass includes intermeshing mass teeth provided on the mass with the teeth of the roller. 12. The method as recited in claim 11 wherein the mass includes a mass rack including the mass teeth. 13. The method as recited in claim 10 wherein the roller is geared to the flange outside of the slot formed in the flange.