Patent Number: 060693614
Section: claims

1. A solid state X-ray detector comprising: a first pixellated array sensor sensitive to a first predetermined bandwidth;  a second pixellated array sensor sensitive to a second predetermined bandwidth arranged such that the pixels of the second sensor are facing the pixels of the first sensor; and  at least one phosphorescent layer sensitive to X-rays and emitting light within the first predetermined bandwidth and the second predetermined bandwidth sandwiched in between the sensors; wherein the first and second bandwidths are different, there are at least two phosphorescent layers with an opaque mask sandwiched between them, such that there is first phosphorescent layer emitting the first bandwidth, and a second phosphorescent layer emitting the second bandwidth.  a plurality of pixellated arrays each sensitive to a bandwidth selected for the pixellated array wherein the bandwidths are different,  a phosphorescent dot pattern applied to at least one of the pixellated arrays and aligned with the pixels of that pixellated array, the dot pattern being sensitive to X-rays and emitting light in response to X-rays within the bandwidth of the sensor to which it is applied.  a plurality of pixellated array sensors each sensitive to bandwidth selected for the sensor wherein the bandwidths are different,  a phosphorescent layer applied to at least one of the sensors and aligned with the pixels of that sensor, the phosphorescent layer being sensitive to X-rays and emitting light in response to X-rays within the bandwidth of the sensor to which it is applied. 2. The X-ray detector of claim 1 wherein the first and second pixellated sensors have arrays offset with respect to each other. 3. The X-ray detector of claim 2 wherein the offset is essentially x/2, y/2 where x represents the distance between two adjacent pixels on the first sensor along the x axis and y represents the distance between two adjacent pixels on the first sensor along the y axis. 4. The X-ray detector of claim 1 further comprising at least one mask adjacent to at least one of the sensors, the mask being opaque to the light emitted by the phosphorescent layer and having a plurality of apertures that are aligned with pixels in the sensor. 5. The X-ray detector of claim 1 wherein the phosphorescent layer emitting to the first predetermined bandwidth or the second predetermined bandwidth is applied to the sensor in a phosphor dot pattern that is aligned with at least the pixels of either the first or second sensors. 6. The X-ray detector of claim 1 wherein the first and second pixellated layers are offset with respect to each other. 7. A solid state X-ray detector comprising: 8. The X-ray detector of claim 7 wherein at least two of the pixellated sensors are offset with respect to each other. 9. The X-ray detector of claim 8 wherein the offset is essentially ##EQU2## where x represents the distance between two adjacent pixels along the x axis on the first pixellated array, y represents the distance between two adjacent pixels along the y axis on the first pixellated array, n equals the total number of pixellated arrays in the sensor, and s equals the current pixellated array being offset. 10. The X-ray detector of claim 1 further comprising at least one mask adjacent to at least one of the sensors, the mask being opaque to the light emitted by the phosphorescent layer and having a plurality of apertures that are aligned with pixels in the sensor to which it is adjacent. 11. A solid state X-ray detector comprising: 12. The X-ray detector of claim 11 wherein at least two of the pixellated sensors are offset with respect to each other. 13. The X-ray detector of claim 11 wherein the offset is essentially ##EQU3## where x represents the distance between two adjacent pixels along the x axis on the first pixellated array, y represents the distance between two adjacent pixels along the y axis on the first pixellated array, n equals the total number of pixellated arrays in the sensor, and s equals the current pixellated array being offset. 14. The X-ray detector of claim 11 further comprising at least one mask adjacent to at least one of the sensors, the mask being opaque to the light emitted by the phosphorescent layer and having a plurality of apertures that are aligned with pixels in the sensor to which it is adjacent.