Patent Number: 
Section: claims

1. An imaging apparatus for analyzing an object, comprising:a) a radiation source for transmission of radiation through an object in a section plane of said object;b) a radiation detector for detecting said radiation in said section plane of said object after transmission through said object, wherein said radiation detector comprises a detection range extending in said section plane;c) a masking device for masking out a part of said radiation, wherein said masked part of said radiation is movable in said section plane and parallel to said section plane relative to said radiation detector during said analysis of said object; andd) an evaluation unit connected to the radiation detector for generating Radon data from said detected radiation, said Radon data representing properties of said object, wherein said evaluation unit calculates said Radon data from the differences of the output of said radiation detector during the movement of said masked part of said radiation. 2. An imaging apparatus according to claim 1, wherein said masking device comprises a movable shutter being disposed in the path of said radiation between said radiation source and said radiation detector, said shutter blocking a part of said radiation depending on its position. 3. An imaging apparatus according to claim 2, wherein said shutter is disposed between said radiation source and said object. 4. An imaging apparatus according to claim 2, wherein said shutter is disposed between said object and said radiation detector. 5. An imaging apparatus according to claim 2, wherein said shutter is linearly movable. 6. An imaging apparatus according to claim 2, wherein said shutter is rotary movable. 7. An imaging apparatus according to claim 2, wherein said shutter is a single-edge shutter blocking said radiation in said section plane on one side only. 8. An imaging apparatus according to claim 2, further comprising:a) a drive for moving said shutter with a defined motion speed; andb) a feedback controller for closed loop controlling of said motion speed of said shutter depending on the output of said radiation detector. 9. An imaging apparatus according to claim 1, wherein said masking device makes said radiation detector partially insensitive to mask out said part of said radiation. 10. An imaging apparatus according to claim 1, wherein said radiation detector is fixedly arranged, whereas said masked part of said radiation is movable. 11. An imaging apparatus according to claim 1, wherein said masked part of said radiation is fixedly arranged, whereas said radiation detector is movable. 12. An imaging apparatus according to claim 1, wherein said radiation detector comprises a single output channel. 13. An imaging apparatus according to claim 1, wherein said radiation detector comprises multiple output channels. 14. An imaging apparatus according to claim 1, wherein said radiation detector and said masking device are integrated in a single component. 15. An imaging apparatus according to claim 1, further comprising:a) rotary carrier receiving said object, said rotary carrier having an axis of rotation perpendicular to said section plane; andb) a drive for rotating said rotary carrier along with said object, whereas said radiation detector is fixed. 16. An imaging apparatus according to claim 1, wherein said radiation source is selected from a group consisting of:a) an X-ray source;b) an ultrasonic source;c) a light source;d) a Gamma radiation source;e) a neutron source;f) an electron source;g) a radiation source emitting electro-magnetic waves;h) a radiation source emitting ionising radiation; andi) a radiation source emitting non-ionising radiation. 17. An imaging apparatus according to claim 16, wherein the light source comprises a laser. 18. An imaging apparatus according to claim 16, wherein the electro-magnetic waves comprise microwaves. 19. An imaging apparatus according to claim 1, wherein the imaging apparatus is a tomography apparatus. 20. An imaging method for analysing an object, comprising:a) transmitting radiation through an object in a section plane of said object;b) detecting said radiation after transmission through said object in said section plane, wherein said radiation is detected within a detection range extending in said section plane;c) masking out a part of said radiation, whereas said masked part of said radiation is moved parallel to said section plane relative to the path of said radiation during said analysis of said object; andd) generating Radon data from said detected radiation, said Radon data representing properties of said object, wherein said Radon data are calculated from the differences of said detected radiation during the movement of said masked part of said radiation. 21. An imaging method according to claim 20, further comprising:moving a shutter in said path of said radiation between a radiation source and a radiation detector for masking said radiation, wherein said shutter forms a masking device. 22. An imaging method according to claim 21, wherein said shutter is moved between said object and said radiation detector. 23. An imaging method according to claim 21, wherein said shutter is linearly moved. 24. An imaging method according to claim 21, wherein said shutter is rotated. 25. An imaging method according to claim 21 wherein said shutter is continuously moved. 26. An imaging method according to claim 21, wherein said shutter is discontinuously moved. 27. An imaging method according to claim 21, wherein said masking device makes said radiation detector partially insensitive for masking said part of said radiation. 28. An imaging method according to claim 21, wherein said radiation detector is fixedly arranged, whereas said masked part of said radiation is moved. 29. An imaging method according to claim 21, wherein said masked part of said radiation is fixedly arranged, whereas said radiation detector is moved. 30. An imaging method according to claim 21, wherein said shutter is moved between said radiation source and said object. 31. An imaging method according to claim 20, further comprising:a) moving said masked part of said radiation with a defined motion speed in said section plane of said object; andb) closed loop controlling of said motion speed of said masked part of said radiation depending on said detected radiation. 32. An imaging method according to claim 20, wherein said object is rotated around an axis of rotation perpendicular to said section plane of said object. 33. An imaging method according to claim 20, wherein said object is selected from the group consisting of:a) an animal;b) a body part of an animal;c) a body part of a human being;d) a component of a machine;e) a component of a spacecraft;f) a component of an aircraft; andg) a component of a motor vehicle. 34. An imaging method according to claim 20, wherein said radiation is selected from the group consisting of:a) x-ray radiation;b) ultrasonic radiation;c) light radiation;d) Gamma radiation;e) neutron radiation;f) electron radiation;g) electro-magnetic radiation;h) ionising radiation; andi) non-ionising radiation. 35. An imaging method according to claim 34, wherein said light radiation comprises laser radiation. 36. An imaging method according to claim 34, wherein said electro-magnetic radiation comprises microwave radiation. 37. An imaging method according to claim 20, wherein the imaging method is a tomography method.