Radiation hard silicon detectors for x-ray imaging

The invention claimed is: 1. A detector system for x-ray imaging, said detector system comprising: a detector having a plurality of adjacent edge-on detector modules, wherein: each of said edge-on detector modules comprises a first edge that is adapted to be oriented towards an x-ray source and a front-side running essentially parallel to the direction of incoming x-rays, said front-side comprising at least one charge collecting electrode and routing traces connecting the at least one charge collecting electrode with front-end electronics; and at least a subset of said plurality of adjacent edge-on detector modules being pairwise arranged, front-side to front-side, whereby a front-side to front-side gap is defined between the front-sides of said pairwise arranged edge-on detector modules; and wherein each said pairwise arranged edge-on detector modules include an anti-scatter collimator arranged in the x-ray path between said x-ray source and said edge-on detector modules and overlapping said front-side to front-side gap, said anti-scatter collimator being arranged to protect the front-side surface of both detector modules in each said pairwise arranged edge-on detector module from damaging x-rays, and each pair of said pairwise arranged edge-on detector modules further include an anti-scatter foil located in said front-side to front-side gap between the front-sides of said pairwise arranged edge-on detector modules. 2. The detector system according to claim 1 , wherein said anti-scatter collimator comprises a collimator of a high Z material. 3. The detector system according to claim 2 , wherein said front-side to front-side gap comprises an anti-scatter foil. 4. The detector system according to claim 2 , wherein said anti-scatter foil comprises a high Z anti-scatter foil. 5. The detector system according to claim 2 , wherein the backside of at least one edge-on detector module of said pairwise arranged edge-on detector modules is arranged to face the backside of a corresponding edge-on detector module in such a way that a back-side to back-side gap is formed between said edge-on detector module and said corresponding edge-on detector module. 6. The detector system according to claim 1 , wherein said anti-scatter foil is attached to the front-side surfaces of both edge-on detector modules of each pair of said pairwise arranged edge-on detector modules. 7. The detector system according to claim 6 , wherein said anti-scatter foil comprises a high Z anti-scatter foil. 8. The detector system according to claim 1 , wherein said anti-scatter foil comprises a high Z anti-scatter foil. 9. The detector system according to claim 1 , wherein the front side volume protected by said anti-scatter collimator exceeds 1% of the total detector volume. 10. The detector system according to claim 1 , wherein the backside of at least one edge-on detector module of said pairwise arranged edge-on detector modules is arranged to face the backside of a corresponding edge-on detector module in such a way that a back-side to back-side gap is formed between said edge-on detector module and said corresponding edge-on detector module. 11. The detector system according to claim 10 , wherein said back-side to back-side gap comprises an attenuating material. 12. The detector system according to claim 11 , wherein said attenuating material comprises a material having similar attenuation characteristics as the semi-conducting material used for the detector modules. 13. The detector system according to claim 1 , wherein said edge-on detector modules comprises edge-on detector modules of a semi-conducting material. 14. The detector system according to claim 13 , wherein said semi-conducting material comprises silicon. 15. The detector system according to claim 14 , wherein said attenuating material comprises silicone. 16. The detector system according to claim 1 , wherein the detector system is arranged to provide improved charge collection. 17. The detector system according to claim 1 , wherein, each said anti-scatter collimator has a front face portion arranged facing the directly incoming x-rays and a rear face portion facing front sides of the pairwise arranged edge-on detector modules and the said front-side to front-side gap therebetween, a width of the rear face portion being greater than a width of said front-side to front-side gap adjacent said rear face portion, the rear face portion covering both said front-side to front-side gap and a portion of front sides of each of the pairwise arranged edge-on detector modules, the rear face portion thereby covering and protecting the front side volume of the pairwise arranged edge-on detector modules against the directly incoming x-rays.