Rotating structure for radiation imaging modalities

What is claimed is: 1. A computed tomography (CT) imaging modality, comprising: a radiation source configured to emit radiation; a detector array configured to detect at least a portion of the radiation; and a rotating structure configured to rotate about an axis, the rotating structure comprising: a first support portion defining a substantially cylindrical interior cavity; and a second support portion defining a non-cylindrical interior cavity, wherein the radiation source and the detector array are mounted to the second support portion, and wherein the first support portion is disposed within the non-cylindrical interior cavity of the second support portion. 2. The CT imaging modality of claim 1 , wherein the second support portion comprises a wall segment defining an opening that the radiation source overlies to emit the radiation through the opening, the wall segment comprising a wall portion, defining a portion of the opening, having a non-constant thickness along a length of the wall portion. 3. The CT imaging modality of claim 1 , comprising an object support configured to convey an object in a direction parallel to the axis from an upstream portion of the CT imaging modality to a downstream portion of the CT imaging modality, wherein the non-cylindrical interior cavity defines the upstream portion of the CT imaging modality and the substantially cylindrical interior cavity defines the downstream portion of the CT imaging modality. 4. The CT imaging modality of claim 1 , wherein the first support portion comprises a substantially annular bearing for coupling the rotating structure to a stationary support structure. 5. The CT imaging modality of claim 4 , wherein: the first support portion comprises a wall having an inner radial surface defining a circumference of the substantially cylindrical interior cavity and having an outer radial surface diametrically opposing the inner radial surface, and the substantially annular bearing is disposed on the outer radial surface. 6. The CT imaging modality of claim 1 , wherein the rotating structure comprises an intermediate attachment structure that attaches to the first support portion and the second support portion, the intermediate attachment structure lying in a plane that is substantially perpendicular to the axis, and the intermediate attachment structure being located between the first support portion and the second support portion. 7. The CT imaging modality of claim 1 , wherein the detector array is disposed within the non-cylindrical interior cavity of the second support portion. 8. The CT imaging modality of claim 1 , wherein: the second support portion comprises a wall having an inner surface that defines the non-cylindrical interior cavity and an outer surface diametrically opposing the inner surface, the wall defines an opening that extends from the inner surface to the outer surface; and the radiation source is mounted to the second support portion on the outer surface and overlies the opening. 9. The CT imaging modality of claim 1 , comprising a weight mounted in the non-cylindrical interior cavity. 10. The CT imaging modality of claim 9 , wherein the detector array is disposed between the radiation source and the weight. 11. The CT imaging modality of claim 1 , wherein: the second support portion comprises a wall having an inner surface that defines the non-cylindrical interior cavity, the wall comprises a first wall segment and a second wall segment, an interior angle is defined by an inner surface of the first wall segment that in part defines the non-cylindrical interior cavity and an inner surface of the second wall segment that in part defines the non-cylindrical interior cavity, and the interior angle is an obtuse angle. 12. The CT imaging modality of claim 1 , wherein the first support portion and the second support portion are integrally formed. 13. A computed tomography (CT) imaging modality, comprising: a radiation source configured to emit radiation; a detector array configured to detect at least a portion of the radiation; and a rotating structure configured to rotate about an axis, the rotating structure comprising: a first support portion comprising a wall defining a substantially cylindrical interior cavity, wherein the wall of the first support portion has an outer radial surface, diametrically opposing the substantially cylindrical interior cavity, that has a circumference; and a second support portion comprising a wall defining a non-cylindrical interior cavity, wherein: the wall of the second support portion comprises a first wall segment having an inner surface that in part defines the non-cylindrical interior cavity, the inner surface of the first wall segment lying in a first plane; the wall of the second support portion comprises a second wall segment having an inner surface that in part defines the non-cylindrical interior cavity, the inner surface of the second wall segment lying in a second plane; and the first support portion is disposed within the non-cylindrical interior cavity of the second support portion. 14. The CT imaging modality of claim 13 , wherein: an interior angle is defined by the inner surface of the first wall segment and the inner surface of the second wall segment, and the interior angle is an obtuse angle. 15. The CT imaging modality of claim 13 , wherein: the wall of the second support portion has an inner surface that defines the non-cylindrical interior cavity and an outer surface diametrically opposing the inner surface, the wall defines an opening that extends from the inner surface to the outer surface; and the radiation source is mounted to the second support portion on the outer surface and overlies the opening to emit the radiation through the opening. 16. The CT imaging modality of claim 13 , wherein the detector array is disposed within the non-cylindrical interior cavity. 17. The CT imaging modality of claim 13 , wherein the radiation source and the detector array are mounted to the second support portion. 18. The CT imaging modality of claim 13 , comprising an object support configured to convey an object in a direction parallel to the axis from an upstream portion of the CT imaging modality to a downstream portion of the CT imaging modality, wherein the substantially cylindrical interior cavity defines the upstream portion of the CT imaging modality and the non-cylindrical interior cavity defines the downstream portion of the CT imaging modality. 19. The CT imaging modality of claim 13 , comprising an object support configured to convey an object in a direction parallel to the axis from an upstream portion of the CT imaging modality to a downstream portion of the CT imaging modality, wherein the non-cylindrical interior cavity defines the upstream portion of the CT imaging modality and the substantially cylindrical interior cavity defines the downstream portion of the CT imaging modality. 20. The CT imaging modality of claim 13 , wherein a substantially annular bearing is disposed on the outer radial surface. 21. A computed tomography (CT) imaging modality, comprising: a radiation source configured to emit radiation; a detector array configured to detect at least a portion of the radiation; and a rotating structure configured to rotate about an axis, the rotating structure comprising: a support portion comprising a wall defining a non-cylindrical interior cavity, wherein: the wall of the support portion comprises a first wall seg