Patent Number: 
Section: claims

1. A collimating system for collimating radiation received under different angles for performing tomography, the collimating system comprising:a static collimator including a plurality of collimating apertures, and shutters for selectively and temporarily shutting at least two of said collimating apertures;wherein the shutters have a shutting element for closing said at least two collimating apertures;wherein the collimating system further comprises at least one collimating element distinct from the shutting element for collimating radiation passing through non-shut collimating apertures in a direction so as to prevent overlap between radiation stemming from different non-shut collimating apertures. 2. The collimating system according to claim 1, wherein the static collimator is at least partially ring-shaped and wherein the plurality of collimating apertures is positioned on a same collimator ring. 3. The collimating system according to claim 1, wherein the at least one collimating element is part of one of the shutters. 4. The collimating system according to claim 3, wherein the one of the shutters has a shutting element for shutting a predetermined collimating aperture and the at least one collimating element is shaped for controlling collimation of radiation passing through a collimating aperture neighboring the predetermined collimating aperture. 5. The collimating system according to claim 3, wherein the at least one collimating element comprises a slanted surface of the one of the shutters. 6. The collimating system according to claim 1, wherein the at least one collimating element is part of an additional collimator configured with respect to the static collimator for controlling overlap between radiation stemming from different non-shut collimating apertures. 7. The collimating system according to claim 1, wherein the collimating system comprises a controller programmed for controlling the shutters for opening the collimating apertures in a predetermined manner. 8. The collimating system according to claim 7, wherein the controller is programmed for controlling the shutting elements and the corresponding at least one collimating element to move simultaneously. 9. The collimating system according to claim 7, wherein the controller is programmed for controlling at least a subset of the shutters individually. 10. The collimating according to claim 7, wherein the controller is programmed for alternatingly and temporarily opening the shutting elements for collimating apertures. 11. The collimating system according to claim 7, wherein the controller is programmed for alternatingly and temporarily opening the shutting elements for a subset of collimating apertures such that over a predetermined time period, all collimating apertures have been un-shut. 12. The collimating system according to claim 1, wherein the collimator is ring shaped and for use with a ring shaped detector and wherein the number of apertures fulfills the following equation:      number    ⁢                  ⁢    of    ⁢                  ⁢    apertures    >      π                  acos        ⁡                  (                                    R              FOV                                      R              d                                )                    -              a        ⁢                                  ⁢                  cos          ⁡                      (                                          R                FOV                                            R                c                                      )                              wherein Rd is the radius of the detector, Rc is the radius of the static collimator and RFOV is the transaxional field-of-view radius. 13. An imaging system comprising a detector, a collimating system according to claim 1, and a correlator for correlating signals detected using the detector with collimated apertures un-shut at the moment of detection. 14. The collimating system according to claim 1, wherein the shutting element is formed from a radiation-blocking material, and the at least one collimating element extends from the shutting element at an angle transverse to the shutting element. 15. The collimating system according to claim 1, wherein the shutting elements arranged between the at least one collimating element and the static collimator. 16. The collimating system according to claim 1, wherein the at least one collimating element is coupled to the shutting element. 17. The collimating system according to claim 1, wherein the static collimator, at least one collimating element, and the shutting elements are arranged concentrically, and the at least one collimating element is arranged between the static collimator and the shutting elements. 18. A method for imaging an object, the method comprising the steps of:selectively and temporarily shutting at least two of a plurality of collimating apertures of a static collimator using shutters having a shutting element for closing said at least two collimating apertures, thereby alternatingly and temporarily opening shutting elements for collimating apertures or subsets of collimating apertures;detecting the radiation transmitted through non-shut collimating apertures;correlating the detected radiation with the non-shut collimator apertures during the detecting;deriving therefrom information of the object of interest, andusing collimating elements for collimating radiation passing through the non-shut collimating apertures in a direction so as to prevent overlap between radiation stemming from different non-shut collimating apertures. 19. The method according to claim 18, wherein the step of selectively and temporarily shutting comprises shutting the shutting element having a thickness of at least 0.5 mm over its shutting area for blocking radiation stemming from the object of interest passing through the collimating apertures. 20. A collimating system for collimating radiation received under different angles for performing tomography, the collimating system comprising:a static collimator defining a plurality of collimating apertures;a plurality of shutters, each of the shutters configured to selectively and temporarily shut at least two of said collimating apertures, each of the shutters including a shutting element that blocks said at least two collimating apertures; andat least one collimating element that collimates radiation that passes through non-blocked collimating apertures in a direction that prevents overlap between radiation stemming from different non-shut collimating apertures,wherein the static collimator is provided on a first side of the shutting element and the at least one collimating element is provided on a second side of the shutting element, the first side of the shutting element being opposite from the second side of the shutting element.