Photon counting imaging modes

What is claimed is: 1. A method for operation of a photon counting radiation imaging system, comprising: displaying a set of image scanning characteristics; receiving a user-selected value for each image scanning characteristic of the set of image scanning characteristics; selecting an imaging mode for examination of an object prior to the examination of the object based upon the user-selected value for each image scanning characteristic, wherein the imaging mode is selected from a group of imaging modes comprising: a first imaging mode defining a first counting scheme for counting detection events of a photon counting radiation imaging system, and a second imaging mode defining a second counting scheme for counting detection events of the photon counting radiation imaging system, wherein the second counting scheme is different than the first counting scheme; defining a dose of radiation to be applied to the object based upon the imaging mode selected for the examination of the object; and performing the examination of the object after the selecting an imaging mode and the defining a dose, wherein: during the examination the object is exposed to the dose of radiation defined based upon the imaging mode selected for the examination of the object, and detection events occurring during the examination are counted according to a counting scheme associated with the imaging mode selected for the examination of the object. 2. The method of claim 1 , wherein the first counting scheme is configured to count a secondary detection event, detected by a secondary detector cell, in a secondary counter associated with the secondary detector cell. 3. The method of claim 2 , wherein the second counting scheme is configured to count the secondary detection event in a primary counter associated with a primary detector cell instead of the secondary counter associated with the secondary detector cell. 4. The method of claim 2 , wherein the second counting scheme is configured to not count the secondary detection event. 5. The method of claim 2 , wherein the second counting scheme is configured to determine a first energy associated with the secondary detection event and a second energy associated with a corresponding primary detection event and to merge, at a primary detector cell, the first energy associated with the secondary detection event and the second energy associated with the corresponding primary detection event to generate a merged energy. 6. The method of claim 5 , wherein the second counting scheme is configured to not count the secondary detection event in the secondary counter associated with the secondary detector cell. 7. The method of claim 1 , wherein the first counting scheme and the second counting scheme are selected from the group consisting of: a first scheme in which a secondary detection event, detected by a secondary detector cell, is counted in a secondary counter associated with the secondary detector cell; a second scheme in which the secondary detection event is counted in a primary counter associated with a primary detector cell instead of the secondary counter associated with the secondary detector cell; a third scheme in which a corresponding primary detection event is counted by the primary detector cell and the secondary detection event is not counted; and a fourth scheme in which: a first energy associated with the secondary detection event is determined; a second energy associated with the corresponding primary detection event is determined; and the first energy associated with the secondary detection event and the second energy associated with the corresponding primary detection event is merged to generate a merged energy. 8. The method of claim 1 , wherein for a set of radiation events, the first counting scheme counts detection events corresponding to the set of radiation events different than the second counting scheme. 9. A method for operation of a photon counting radiation imaging system, comprising: determining a type of object that is being imaged by the photon counting radiation imaging system; selecting an imaging mode for counting detection events of the photon counting radiation imaging system based upon the type of object; defining a dose of radiation to be applied to an object based upon the imaging mode selected for counting detection events; and performing an examination of the object after the selecting an imaging mode and the defining a dose, wherein: during the examination the object is exposed to the dose of radiation defined based upon the imaging mode selected for counting detection events, and detection events occurring during the examination are counted according to the imaging mode selected for counting detection events. 10. The method of claim 9 , wherein the selecting comprises: selecting a first imaging mode when the type of object corresponds to a first type of object; and selecting a second imaging mode when the type of object corresponds to a second type of object, wherein the first imaging mode has a first counting scheme and the second imaging mode has a second counting scheme different than the first counting scheme. 11. The method of claim 10 , wherein the first counting scheme and the second counting scheme are selected from the group consisting of: a first scheme in which a secondary detection event, detected by a secondary detector cell, is counted in a secondary counter associated with the secondary detector cell; a second scheme in which the secondary detection event is counted in a primary counter associated with a primary detector cell instead of the secondary counter associated with the secondary detector cell; a third scheme in which a corresponding primary detection event is counted by the primary detector cell and the secondary detection event is not counted; and a fourth scheme in which: a first energy associated with the secondary detection event is determined; a second energy associated with the corresponding primary detection event is determined; and the first energy associated with the secondary detection event and the second energy associated with the corresponding primary detection event is merged to generate a merged energy. 12. The method of claim 9 , wherein the determining comprises: determining the type of object based upon user input. 13. The method of claim 9 , wherein the determining comprises determining the type of object based upon a pre-scan of the object prior to the performing an examination. 14. The method of claim 9 , wherein the determining comprises analyzing a previously acquired image of the object to determine the type of object. 15. The method of claim 9 , wherein the selecting comprises selecting the imaging mode based upon a desired spatial resolution of images depicting the object. 16. The method of claim 9 , wherein the selecting comprises selecting the imaging mode based upon a sensitivity to radiation associated with the object. 17. The method of claim 10 , wherein the first imaging mode is configured to generate images having a first spatial resolution and the second imaging mode is configured to generate images having a second spatial resolution different than the first spatial resolution. 18. A photon counting radiation imaging system, comprising: a radiation source configured to emit radiation; a detector array comprising a plurality of detector cells respectively configured to count detection events; a mode selection component configured to select an imaging mode for the detector cells based upon user-inpu