Rolling-element bearing and method of countering load applied to rolling-element bearing

The invention claimed is: 1. A rolling-element bearing comprising: an inner bearing ring and an outer bearing ring defining an axial direction and a circumferential direction; a plurality of rolling elements configured to roll circumferentially between the inner bearing ring and the outer bearing ring; at least one oil chamber between the inner bearing ring and the outer bearing ring, each oil chamber being defined by the inner bearing ring, the outer bearing ring and an oil chamber housing fixed to one of the inner bearing ring and the outer bearing ring, the oil chamber housing including side walls extending radially and separating the oil chamber housing from the plurality of rolling elements; and at least one duct connected to each oil chamber for a supply of oil to the connected oil chamber, such that oil supplied to the oil chamber acts on the bearing ring to which the oil chamber housing is not fixed so as to oppose an applied load; and wherein each oil chamber extends circumferentially between the inner bearing ring and the outer bearing ring over an arc subtending an angel of less than 180°. 2. The rolling-element bearing of claim 1 , wherein the at least one oil chamber is spaced from or adjacent to the rolling elements in the axial direction. 3. The rolling-element bearing of claim 1 , comprising two axially spaced rows of rolling elements, wherein each oil chamber is axially between the two rows of rolling elements. 4. The rolling-element bearing of claim 1 , wherein the angle is at least 110°. 5. The rolling-element bearing of claim 1 , wherein the oil chamber housing is accommodated adjacent to the bearing ring to which it is not fixed with a clearance there between being such that the oil chamber is a self-sealed space. 6. The rolling-element bearing of claim 1 , wherein the oil chamber housing comprises at least one hole for supplying oil from the oil chamber to the rolling elements. 7. The rolling-element bearing of claim 1 , comprising a plurality of oil chambers spaced from each other in the axial direction. 8. The rolling-element bearing of claim 7 , wherein the plurality of axially spaced oil chambers extend circumferentially between the inner bearing ring and the outer bearing ring over the same arc subtending the same angle. 9. The rolling-element bearing of claim 7 , comprising two axially spaced rows of rolling elements and three axially spaced sets of oil chambers, wherein one of the sets of oil chambers is axially between the two rows of rolling elements and each row of rolling elements is axially between two of the sets of oil chambers. 10. The rolling-element bearing of claim 1 , comprising a plurality of oil chambers that extend circumferentially between the inner bearing ring and the outer bearing ring over non-overlapping arcs. 11. A gas turbine engine comprising: a rolling-element bearing comprising: an inner bearing ring and an outer bearing ring defining an axial direction and a circumferential direction; a plurality of rolling elements configured to roll circumferentially between the inner bearing ring and the outer bearing ring; at least one oil chamber between the inner bearing ring and the outer bearing ring, each oil chamber being defined by the inner bearing ring, the outer bearing ring and an oil chamber housing fixed to one of the inner bearing ring and the outer bearing ring, the oil chamber housing including side walls extending radially and separating the oil chamber housing from the plurality of rolling elements; and at least one duct connected to each oil chamber for a supply of oil to the connected oil chamber; and further comprising: a rotating object integral with, or in an interference fit with, the bearing ring to which the at least one oil chamber is not fixed; and a load applying component that applies a load on the rolling-element bearing in a load direction (X), which is radial with respect to the rolling-element bearing, wherein at least one oil chamber is between the applied load and the bearing ring to which the corresponding oil chamber housing is fixed, such that oil supplied to the at least one oil chamber acts on the bearing ring to which the oil chamber housing is not fixed so as to oppose the applied load; and wherein each oil chamber extends circumferentially between the inner bearing ring and the outer bearing ring over an arc subtending an angel of less than 180°. 12. The gas turbine engine of claim 11 , comprising an oil supply system configured to supply oil through the at least one duct to the connected oil chamber. 13. The gas turbine engine of claim 12 , wherein the rolling-element bearing includes a second oil chamber and the roller-element bearing is arranged such that the supply of oil to the at least one oil chamber is controllable independently from the supply of oil to the second oil chamber. 14. A method of countering a load applied to a rolling-element bearing that comprises: an inner bearing ring and an outer bearing ring defining an axial direction and a circumferential direction; a plurality of rolling elements configured to roll circumferentially between the inner bearing ring and the outer bearing ring; at least one oil chamber between the inner bearing ring and the outer bearing ring, each oil chamber being defined by the inner bearing ring, the outer bearing ring and an oil chamber housing fixed to one of the inner bearing ring and the outer bearing ring, the oil chamber housing including side walls extending radially and separating the oil chamber housing from the plurality of rolling elements; and at least one duct corresponding to each oil chamber for a supply of oil to the corresponding oil chamber; wherein the method comprises supplying oil to the at least one oil chamber, such that oil supplied to the at least one oil chamber acts on the bearing ring to which the oil chamber is not fixed so as to oppose the applied load; and wherein each oil chamber extends circumferentially between the inner bearing ring and the outer bearing ring over an arc subtending an angel of less than 180°.