Radiotherapy and imaging apparatus

What is claimed is: 1. A radiotherapy apparatus comprising: a source of therapeutic radiation mounted on a chassis, the chassis being rotatable about a rotation axis and the source being adapted to emit a beam of radiation along a beam axis that intersects with the rotation axis, the beam of radiation directed through a multi-leaf collimator housing; a patient support; a set of magnetic coils, for establishing a magnetic field at a point of intersection of the beam axis and the rotation axis; and a multi-leaf collimator comprising the multi-leaf collimator housing shaped as an aperture through which the beam of radiation is directed, the multi-leaf collimator comprising a plurality of elongate leaves disposed with their longitudinal directions substantially aligned with a first direction and movable in that direction, the multi-leaf collimator being rotationally fixed in its orientation with respect to the source of radiation such that the elongate leaves are movable only in the first direction, wherein: the first direction is substantially parallel to the rotation axis, and wherein the set of magnetic coils are located on either side of the beam and are spaced from the point of intersection along the first direction, a thickness of a first portion of a first leaf of the plurality of elongate leaves is different from a second portion of the first leaf, the first portion being further from the source of therapeutic radiation than the second portion of the first leaf, the first and second portions of the first leaf being configured to move inside the aperture of the multi-leaf collimator housing through which the beam of radiation is directed, and the multi-leaf collimator comprises a plurality of supports within the multi-leaf collimator housing that extend across the beam inside the aperture for supporting the elongate leaves at least in their respective extended and intermediate positions. 2. The radiotherapy apparatus according to claim 1 , wherein the first leaf varies in thickness such that, as the beam of radiation diverges into a fan shape, the first leaf increases in width to effectively block the beam of radiation along a full length of the first leaf. 3. The radiotherapy apparatus according to claim 2 , in which the multi-leaf collimator comprises two banks of leaves, each extending from one side of the beam and moveable toward the other side, the extended position of each leaf being one in which the leaf concerned extends across substantially an entire width of the beam. 4. The radiotherapy apparatus according to claim 1 , further comprising a magnetic resonance image acquisition system adapted to obtain information from an RF system in conjunction with the magnetic coils, and to derive an image of a patient on the patient support. 5. The radiotherapy apparatus according to claim 4 , further comprising a control means for the radiation source adapted to control the source and the multi-leaf collimator so as to deliver a therapeutic radiation dose to a target region of the patient on the patient support, the control means being adapted to receive magnetic resonance images from the acquisition system during delivery of the dose. 6. The radiotherapy apparatus according to claim 1 , wherein the chassis is continuously rotatable about the rotation axis, and wherein the elongate leaves are movable between respective withdrawn positions in which the leaves lie outside the beam. 7. The radiotherapy apparatus according to claim 1 , further comprising a radiation detector mounted to a gantry opposite the source, wherein the patient support is movable along a translation axis, and wherein the translation axis, the rotation axis and the first direction are substantially parallel, the radiation detector comprising elements for detecting that the plurality of elongate leaves are correctly positioned, the elements being arranged in a plurality of columns to allow the plurality of elongate leaves to be detected at discrete positions. 8. A method of operating a radiotherapy apparatus, the radiotherapy apparatus comprising: a source of therapeutic radiation mounted on a chassis, the chassis being rotatable about a rotation axis and the source being adapted to emit a beam of radiation along a beam axis that intersects with the rotation axis, the beam of radiation directed through a multi-leaf collimator housing; a patient support; a set of magnetic coils, for establishing a magnetic field at a point of intersection of the beam axis and the rotation axis; and a multi-leaf collimator comprising the multi-leaf collimator housing shaped as an aperture through which the beam of radiation is directed, the multi-leaf collimator comprising a plurality of elongate leaves disposed with their longitudinal directions substantially aligned with a first direction and movable in that direction, the multi-leaf collimator being rotationally fixed in its orientation with respect to the source of radiation such that the elongate leaves are movable only in the first direction, wherein: the first direction is substantially parallel to the rotation axis, the set of magnetic coils are located on either side of the beam and are spaced from the point of intersection along the first direction, a thickness of a first portion of a first leaf of the plurality of elongate leaves is different from a second portion of the first leaf, the first portion being further from the source of therapeutic radiation than the second portion of the first leaf, the first and second portions of the first leaf being configured to move inside the aperture of the multi-leaf collimator housing through which the beam of radiation is directed, and the multi-leaf collimator comprises a plurality of supports within the multi-leaf collimator housing that extend across the beam inside the aperture for supporting the elongate leaves at least in their respective extended and intermediate positions, the method comprising: acquiring imaging data of a target region; and adapting positions of the elongate leaves in dependence on the imaging of the target region of a patient on the patient support with a therapeutic radiation beam. 9. The method according to claim 8 , wherein the first leaf varies in thickness such that, as the beam of radiation diverges into a fan shape, the first leaf increases in width to effectively block the beam of radiation along a full length of the first leaf. 10. The method according to claim 8 , further comprising: rotating the chassis about the rotation axis, wherein the elongate leaves are movable between respective withdrawn positions in which the leaves lie outside the beam, wherein the patient support is movable along a translation axis, and wherein the translation axis, the rotation axis and the first direction are substantially parallel. 11. The radiotherapy apparatus according to claim 1 , wherein the source of radiation is adapted to emit a beam of radiation towards the multi-leaf collimator, the beam received by the multi-leaf collimator having a first extent in the first direction, and a second, greater extent in a second direction normal to the first direction. 12. The method according to claim 8 , wherein the source of radiation is adapted to emit a beam of radiation towards the multi-leaf collimator, the beam received by the multi-leaf collimator having a first extent in the first direction, and a second, greater extent in a second direction normal to the first direction. 13. The radiotherapy apparatus according to claim 1 , wherein a tip of the first leaf is rounded and has first and second straight edges, wherein a first portion of the rounded tip of the first leaf is connecte