Bearing with optical sensor and associated groove

The invention claimed is: 1. A bearing comprising: a first ring, and a second ring capable of rotating concentrically relative to one another, at least one groove formed on an axial cylindrical surface of the second ring and oriented towards the first ring, the groove being axially delimited by two side edges, at least one optical sensor mounted on the first ring to emit a beam oriented towards at least one of the side edges of the groove of the second ring, the optical sensor being able to detect axial positions of the at least one of the side edges. 2. The bearing according to claim 1 , wherein the groove of the second ring is annular. 3. The bearing according to claim 1 , wherein the optical sensor remains radially spaced apart from an axial cylindrical surface of the first ring which radially faces the axial cylindrical surface of the second ring on which the groove is formed. 4. The bearing according to claim 1 , wherein the side edges of the groove of the second ring extend at least in part radially. 5. The bearing according to claim 4 , wherein the groove of the second ring comprises at least one tapered bevel extending one of the side edges and connected to the axial cylindrical surface of the second ring on which the groove is formed. 6. The bearing according to claim 4 , wherein at least one of the side edges of the groove has a stepped form with at least a first radial portion connected to the axial cylindrical surface of the second ring on which the groove is formed, and with at least a second radial portion offset axially towards the other side edge of the groove with regard to the first radial portion. 7. The bearing according to claim 1 , wherein the first ring comprises a through-hole inside which the optical sensor is disposed. 8. The bearing according to claim 7 , wherein the through-hole of the first ring extends radially from an axial cylindrical surface located radially on the side opposite to the second ring, and opens on an opposite axial cylindrical surface of the first ring radially facing the axial cylindrical surface of the second ring on which the groove is formed. 9. The bearing according to claim 1 , further comprising at least one row of rolling elements arranged between raceways provided on the first and second rings, and first and second seals disposed between the rings and delimiting together a closed rolling space inside which the row of rolling elements is housed, the rolling bearing further comprising at least one additional seal located inside the closed rolling space and delimiting together with one of the first and second seals a closed detection space inside which opens to the groove. 10. The bearing according to claim 1 , comprising at least one row of axial rolling elements arranged between radial raceways provided on the rings, and at least one row of radial rolling elements arranged between axial raceways provided on the rings, the second ring comprising a protruding nose engaged into an annular groove of the first ring and provided with the axial raceway of the second ring, the nose protruding radially from the axial cylindrical surface of the second ring on which the groove is formed.