Patent Number: 046722114
Section: claims

1. For use in a system requiring electromagnetic radiation to be radiated onto a utilization object, a blackbody simulator having a cavity defining an apex and a cavity surface, and an aperture to the cavity, said cavity surface being divided into a primary radiating surface and a secondary radiating surface, the primary radiating surface comprising portions of the cavity surface which are in direct line of sight to some portion of the utilization object through the aperture, the secondary radiating surface comprising portions of the cavity surface which are not part of the primary radiating surface; wherein the projected solid angle of the aperture with respect to all portions of the primary radiating surface is generally constant; and the primary radiating surface comprises a circular plate having at least one circular groove concentric with the apex, the half angle of said apex being in excess of 20.degree..  wherein the projected solid angle of the aperture with respect to all portiions of the primary radiating surface is generally constant; and the primary radiating surface comprises a circular plate having at least one circular groove concentric with the apex, the half angle of said apex being in excess of 20.degree.; and  wherein the ratio of the depth of the cavity to the diameter of the aperture is in the range of approximately 5:1 to 1:1.  wherein the projected solid angle of the aperture with respect to all portions of the primary radiating surface is generally constant; and the primary radiating surface comprises a circular plate having at least one circular groove concentric with the apex, the half angle of said apex being in excess of 20.degree.; and  wherein the secondary radiating surface is a cylinder such that the ratio of the cylinder diameter to the aperture diameter ranges from approximately 10:1 to approximately 2:1.  wherein the projected solid angle of the aperture with respect to all portions of the primary radiating surface is generally constant, the primary radiating surface comprises a circular plate having at least one circular groove concentric with the apex, and the ratio of the depth of the cavity to the aperture diameter ranges from approximately 5:1 to approximately 1:1.  the core further having a cavity and an aperture on its first side of the cavity, the cavity being rotationally symmetrical about an axis and having a cone-like apex on the axis opposite the aperture with an apex half-angle of less than 60.degree. and greater than 20.degree., a substantial portion of the cavity surface being shaped so that the value of the projected solid angle of the aperture with respect to any point on the cavity surface portion is substantially constant;  the cavity surface portion comprising at least n subsurfaces;  the first subsurface extending from the apex toward the aperture;  said n being an integer less than 7;  a substantial number of said cavity portion subsurfaces defining inner and outer limiting curves with each of said substantial number of subsurfaces extending from the inner limiting curve to the outer limiting curve;  said outer limiting curve remaining inside a sphere containing the rim of the aperture and having a radius such that the value of the projected solid angle of the aperture with respect to any point of the sphere is substantially constant, and said inner limiting curve remaining outside an arch defined by the locations at which a tangent in a plane containing the aixs of symmetry interesects the rim of the aperture for each subsurface if extended to the arch  wherein the ratio of the depth of the cavity to the aperture diameter ranges from approximately 5:1 to 1:1. 2. The simulator of claim 1 wherein the half angle of the apex is in excess of 40.degree.. 3. For use in a system requiring electromagnetic radiation to be radiated onto a utilization object, a blackbody simulator having a cavity defining an apex and a cavity surface, and an aperture to the cavity, said cavity surface being divided into a primary radiating surface and a secondary radiating surface, the primary radiating surface comprising portions of the cavity surface which are in direct line of sight to some portion of the utilization object through the aperture, the secondary radiating surface comprising portions of the cavity surface which are not part of the primary radiating surface; 4. For use in a system requiring electromagnetic radiation to be radiated onto a utilization object, a blackbody simulator having a cavity defining an apex and a cavity surface, and an aperture to the cavity, said cavity surface being divided into a primary radiating surface and a secondary radiating surface, the primary radiating surface comprising portions of the cavity surface which are in direct line of sight to some portion of the utilization object through the aperture, the secondary radiating surface comprising portions of the cavity surface which are not part of the primary radiating surface; 5. For use in a system requiring electromagnetic radiation to be radiated onto a utilization object, a blackbody simulator having a cavity defining an apex and a cavity surface, and an aperture to the cavity, said cavity surface being divided into a primary radiating surface and a secondary radiating surface, the primary radiating surface comprising portions of the cavity surface which are in direct line of sight to some portion of the utilization object through the aperture, the secondary radiating surface comprising portions of the cavity surface which are not part of the primary radiating surface; 6. A core having a first side; 7. The simulator of claim 1 wherein the secondary radiating surface is defined by a portion of a sphere, said secondary radiating surface being shaped so that the value of the projected solid angle of the aperture with respect to any point of said secondary radiating surface is substantially equal to the value of the projected solid angle of the aperture with respect to points on the cavity primary radiating surface near the apex. 8. The simulator of claim 7 wherein the half angle of the apex is in excess of 40.degree.. 9. The simulator of claim 1 wherein the secondary radiating surface comprises a portion of a sphere, said secondary radiating surface being shaped so that the value of the projected solid angle of the aperture with respect to all points of said sphere portion is substantially equal to the value of the projected solid angle of the aperture with respect to points on the cavity primary radiating surface. 10. The simulator of claim 9 wherein the half angle of the apex is in excess of 40.degree.. 11. The simulator of claim 3 wherein the half angle of the apex is in excess of 40.degree.. 12. The simulator of claim 3 wherein the secondary radiating surface comprises a portion of a sphere, said secondary radiating surface being shaped so that the value of the projected solid angle of the aperture with respect to all points of said sphere portion is substantially equal to the value of the projected solid angle of the aperture with respect to points on the cavity primary radiating surface. 13. The simulator of claim 12 wherein the half angle of the apex is in excess of 40.degree..