CsI(TI) scintillator crystal including antiomy and other multi valence cations to reduce afterglow, and a radiation detection apparatus including the scintillation crystal

What is claimed is: 1. A scintillator crystal comprising: a cesium iodide host material; a first dopant comprising a thallium cation, a molar concentration of said first dopant being less than 10%; a second dopant comprising antimony, wherein the scintillator crystal comprises greater than zero and less than 0.01 mol % of the second dopant; and a third dopant comprising bismuth, wherein the scintillator crystal has a reduced afterglow. 2. The scintillator crystal of claim 1 , wherein the quantity of the antimony in the scintillator crystal comprises between 1×10 −7 mol % and 1×10 −2 mol % antimony. 3. The scintillator crystal of claim 1 , wherein the scintillator crystal comprises at least 1×10 −7 mol % antimony. 4. The scintillator crystal of claim 1 , wherein the scintillator crystal comprises less than 1×10 −3 mol % antimony and wherein the scintillator crystal has a light output intensity of less than 0.4% at 100 ms after exposure to an X-ray irradiation, relative to a light output intensity measured during the X-ray irradiation. 5. The scintillator crystal of claim 1 , wherein the scintillator crystal comprises less than 1×10 −3 mol % antimony and wherein the scintillator crystal has a light output intensity of less than 0.3% at 500 ms after exposure to an X-ray irradiation, relative to a light output intensity measured during the X-ray irradiation. 6. The scintillator crystal of claim 1 , wherein the scintillator crystal contains more than 1×10 −6 mol % of a co-dopant cation capable of existing in more than one oxidation state within the crystal matrix. 7. The scintillator crystal of claim 1 , wherein a concentration of the second dopant in the scintillator crystal is greater than zero and no greater than 0.01 mol %. 8. The scintillator crystal of claim 1 , wherein the second dopant comprises pentavalent antimony and the third dopant comprises pentavalent bismuth. 9. A scintillator crystal comprising: a cesium iodide host material; a first dopant comprising a thallium cation, a molar concentration of said first dopant being less than 10%; a second dopant comprising a group VA element, wherein the quantity of the second dopant in the scintillator comprises between 1×10 −7 mol % and 0.1 mol %; and a third dopant comprising a trivalent bismuth. 10. The scintillator crystal of claim 9 , wherein the group VA element is at least partially in its 3+ oxidation state. 11. The scintillator crystal of claim 9 , wherein the second dopant comprises trivalent antimony. 12. The scintillator crystal of claim 9 , wherein the scintillator crystal comprises at least 3×10 −4 mol % antimony. 13. The scintillator crystal of claim 9 , wherein the scintillator crystal comprises less than 1×10 −3 mol % antimony and wherein the scintillator crystal has a light output intensity of less than 0.5% at 100 ms after exposure to an X-ray irradiation, relative to a light output intensity measured during the X-ray irradiation. 14. The scintillator crystal of claim 9 , wherein the scintillator crystal comprises less than 1×10 −3 mol % antimony and wherein the scintillator crystal has a light output intensity of less than 0.2% at 500 ms after exposure to an X-ray irradiation, relative to a light output intensity measured during the X-ray irradiation. 15. The scintillator crystal of claim 9 , wherein the scintillator crystal contains more than 1×10 −6 mol % of a co-dopant cation capable of existing in more than one oxidation state within the crystal matrix. 16. The scintillator crystal of claim 9 , wherein the scintillator crystal comprises no greater than 0.003 mol % of the second dopant. 17. A radiation detection apparatus comprising: a housing; a scintillator within the housing, the scintillator comprising: a cesium iodide host material; a first dopant comprising a thallium cation, a molar concentration of said first dopant being less than 10%; a second dopant comprising an antimony cation, wherein a concentration of the second dopant in the scintillator crystal is greater than zero and no greater than 0.01 mol %; and a third dopant comprising bismuth, wherein the scintillator has a reduced afterglow. 18. The radiation detection apparatus of claim 17 , wherein the scintillator crystal comprises no greater than 0.002 mol % of the second dopant. 19. The radiation detection apparatus of claim 17 , wherein the radiation detection apparatus is capable of inspecting more than 300 bags per hour during an X-ray irradiation. 20. The radiation detection apparatus of claim 17 , wherein the radiation detection apparatus is capable of inspecting more than 1000 bags per hour during an Computed tomography irradiation.