Intershaft seal

The invention claimed is: 1. An assembly, the assembly comprising: a rotatable inner shaft; a rotatable outer shaft, wherein the rotatable inner shaft and the rotatable outer shaft are coaxial, and the rotatable inner shaft and the rotatable outer shaft both rotate relative to each other; an intershaft seal that is located in an annular space between the rotatable inner shaft and the rotatable outer shaft, wherein the intershaft seal maintains an axial pressure differential between a fluid pressure on a first side of the intershaft seal and a different fluid pressure on a second side of the intershaft seal, the intershaft seal including: a first runner which extends circumferentially around one of the rotatable inner shaft and the rotatable outer shaft and projects therefrom into the annular space, and a sealing ring which is coaxial with both the shaft and the rotatable outer shaft and has a first end face, the first runner forming a first annular sealing interface with the first end face of the sealing ring, wherein the sealing ring has a main body portion formed of a first material having a first stiffness, a retaining ring fixedly fitted to a radially outward side of the main body portion of the sealing ring and formed of a second material having a second stiffness, the second stiffness being greater than the first stiffness such that the retaining ring reduces or prevents radial growth of the sealing ring relative to the rotatable outer shaft under centrifugal loading, the retaining ring having a first anti-rotation formation projecting from an outer side of the retaining ring, wherein an outer surface of the retaining ring and the first anti-rotation formation opposes an inner surface of the rotatable outer shaft. 2. The assembly according to claim 1 , wherein the first material has a first coefficient of thermal expansion, and the second material has a second coefficient of thermal expansion, the second coefficient of thermal expansion being higher than the first coefficient of thermal expansion such that the retaining ring increases radial contraction of the sealing ring relative to the rotatable outer shaft on decreasing temperature. 3. The assembly according to claim 1 , wherein the one of the rotatable inner shaft and the rotatable outer shaft is the rotatable inner shaft. 4. The assembly according to claim 1 , wherein the intershaft seal further includes a second runner which extends circumferentially around the one of the rotatable inner shaft and the rotatable outer shaft and projects therefrom into the annular space, the sealing ring being located in a cavity formed between the first and second runners and having a second end face axially spaced from the first end face of the sealing ring, and the second runner forming a second annular sealing interface with the second end face of the sealing ring. 5. The assembly according to claim 1 , wherein the main body portion is formed of carbon or ceramic. 6. The assembly according to claim 1 , wherein the retaining ring is formed of metal or fibre reinforced composite material. 7. The assembly according to claim 1 , wherein the first anti-rotation formation on the outer side of the retaining ring cooperates with a corresponding second anti-rotation formation of the rotatable outer shaft to prevent or restrict rotation of the sealing ring relative to the rotatable outer shaft but to allow limited axial movement of the sealing ring relative to the rotatable outer shaft. 8. The assembly according to claim 7 , wherein one of the anti-rotation formations provides one or more male elements which mate with one or more corresponding female elements provided by the corresponding second anti-rotation formation. 9. The assembly according to claim 7 , wherein the first anti-rotation formation is an arrangement of one or more flexible members which extend from the sealing ring to the rotatable outer shaft, and the second anti-rotation formation is an arrangement of corresponding attachment fixtures for the flexible members to the rotatable outer shaft, wherein the flexible members allow restricted rotation of the sealing ring relative to the rotatable outer shaft. 10. The assembly according to claim 1 , further including one or more secondary seals which seal between the sealing ring and the rotatable outer shaft. 11. The assembly according to claim 10 , wherein the one or more secondary seal are annular bellows formations having ends which are fixed to respectively the sealing ring and the rotatable outer shaft. 12. The assembly according to claim 1 , wherein the retaining ring is an interference fit to the sealing ring. 13. The assembly according to claim 1 , wherein the retaining ring is formed as a plurality of arc sections which are individually located on the retaining ring and then joined together to complete the retaining ring. 14. Coaxial rotatable inner and rotatable outer shafts fitted with the intershaft seal of claim 1 . 15. An intershaft seal assembly, the intershaft seal assembly comprising: a rotatable inner shaft; a rotatable outer shaft, wherein the rotatable inner shaft and the rotatable outer shaft are coaxial, and the rotatable inner shaft and the rotatable shaft both rotate relative to each other; an intershaft seal that is located in an annular space between the rotatable inner shaft and the rotatable outer shaft, wherein the intershaft seal maintains an axial pressure differential between a fluid pressure on a first side of the intershaft seal and a different fluid pressure on a second side of the intershaft seal, the intershaft seal including: a first runner which extends circumferentially around one of the rotatable inner shaft and the rotatable outer shaft and projects therefrom into the annular space, and a sealing ring which is coaxial with both the rotatable inner shaft and the rotatable outer shaft and has a first end face, the first runner forming a first annular sealing interface with the first end face of the sealing ring; wherein the sealing ring has a main body portion formed of a first material having a first coefficient of thermal expansion, a retaining ring fixedly fitted to an radially outward side of the main body portion of the sealing ring and formed of a second material having a second coefficient of thermal expansion, the second coefficient of thermal expansion being higher than the first coefficient of thermal expansion such that the retaining ring increases radial contraction of the sealing ring relative to the rotatable outer shaft on decreasing temperature, the retaining ring having a first anti-rotation formation projecting from an outer side of the retaining ring, wherein an outer surface of the first anti-rotation formation opposes an inner surface of the rotatable outer shaft. 16. The assembly according to claim 7 , wherein one of the anti-rotation formations provides one or more male elements which mate with one or more corresponding female elements provided by the other anti-rotation formation. 17. The assembly according to claim 7 , wherein the first anti-rotation formation is an arrangement of one or more flexible members which extend from the sealing ring to the rotatable outer shaft, and the second anti-rotation formation is an arrangement of corresponding attachment fixtures for the flexible members to the rotatable outer shaft, wherein the flexible members allow restricted rotation of the sealing ring relative to the rotatable outer shaft. 18. The assembly according to claim 1 , wherein the retaining ring is press-fitted or shrink-fitted to the main