Multi-leaf collimator vision system

What is claimed is: 1 . A multi-leaf collimator for a radiotherapy device, comprising: a first leaf comprising a first radioluminescent marker; and a second leaf comprising a second radioluminescent marker, wherein the first radioluminescent marker and the second radioluminescent marker emit visible light of different wavelengths. 2 . The multi-leaf collimator according to claim 1 , wherein each of the leaves of the multi-leaf collimator includes at least one radioluminescent marker. 3 . The multi-leaf collimator according to claim 1 , wherein at least one leaf of the multi-leaf collimator includes a plurality of radioluminescent markers. 4 . The multi-leaf collimator according to claim 1 , wherein the first radioluminescent marker and the second radioluminescent marker each comprise a different phosphor. 5 . The multi-leaf collimator according to claim 1 , wherein each particular leaf of the multi-leaf collimator includes a particular radioluminescent marker that emits visible light of a wavelength different from another particular radioluminescent marker included on another particular leaf. 6 . The multi-leaf collimator according to claim 1 wherein the leaves are mounted on a frame, and wherein the frame includes at least one radioluminescent marker. 7 . The multi-leaf collimator according to claim 6 , wherein the frame includes a plurality of radioluminescent markers that collectively indicate a maximum field of view of the multi-leaf collimator. 8 . The multi-leaf collimator according to claim 1 , wherein at least one of the first radioluminescent marker or the second radioluminescent marker is arranged to emit electrons through beta decay. 9 . The multi-leaf collimator according to claim 1 , wherein at least one of the first radioluminescent marker or the second radioluminescent marker comprises a tritium gas tube. 10 . The multi-leaf collimator according to claim 1 , wherein at least one of: i) the first radioluminescent marker is positioned at a tip of the first leaf or a tail end of the first leaf, or ii) the second radioluminescent marker is positioned at a tip of the second leaf or at a tail end of the second leaf. 11 . The multi-leaf collimator according to claim 1 , wherein at least one of the first radioluminescent marker or the second radioluminescent marker is cylindrical. 12 . A radiotherapy device comprising a multi-leaf collimator comprising: a plurality of leaves, wherein at least one leaf includes at least one radioluminescent marker; and a camera arranged to view and capture visible light emitted by the at least one radioluminescent marker, wherein: a first leaf comprises a first radioluminescent marker and a second leaf comprises a second radioluminescent marker; and the first radioluminescent marker and the second radioluminescent marker emit visible light of different wavelengths. 13 . The radiotherapy device according to claim 12 , wherein the camera is a coloured camera arranged to capture and distinguishing between the visible light of different wavelengths. 14 . The radiotherapy device according to claim 12 , wherein the camera is arranged to directly view light emitted by or reflected from the at least one radioluminescent marker. 15 . The radiotherapy device according to claim 12 , wherein the camera is arranged with a line-of-sight path to the at least one radioluminescent marker.