Patent Number: 050251635
Section: claims

1. A radiographic imaging screen comprising: a substrate transparent to incident radiation photons;  a composite layer formed on a surface of the substrate including  (a) a substantially uniform distribution of discrete high-Z metal particles adapted to generate secondary electron emissions in any direction from the particle in response to incident high energy radiation photons; and  (b) electron responsive luminescent material completely surrounding and in direct contact with said discrete metal particles in the layer such that secondary electrons emitted from the metal particles encounter the luminescent material regardless of the direction of emission from the particles to thereby enable the generation of visible light photons therefrom.  a plurality of discrete high-Z metal particles adapted to generate secondary electron emissions in any direction from the particle in response to incident high energy radiation photons, each of said particles having a coating of electron responsive luminescent material directly contacting said particle such that secondary electrons emitted in any direction from the particles by the incident radiation encounter the luminescent material thereby to enable generation of visible light radiation regardless of the direction of emission of the electrons from the particle;  a substrate transparent to incident radiation photons;  and means transparent to incident radiation and to light generated by the luminescent material for binding said coated particles in a layer on the surface of the substrate. 2. A radiographic imaging screen according to claim 1 in which said particles are each coated with said luminescent material. 3. A radiographic imaging screen according to claim 1 in which said particles are dispersed closely packed in a layer of the luminescent material on the substrate. 4. A radiographic imaging screen according to claim 2 or 3 in which said metal particles are generally spherical in shape. 5. A radiographic imaging screen according to claim 1 in which said incident radiation is comprised of X-ray photons in an energy range of about 60 to 80 keV and in which at least a substantial portion of said particles are not greater than about 5 microns in size. 6. A radiographic imaging screen comprising: 7. A radiographic imaging screen according to claim 6 in which said metal particles are generally spherical in shape. 8. A radiographic imaging screen according to claim 6 in which said particle spheres are not greater than about 5 microns in diameter.