Patent Number: 
Section: claims

1. An intensifying screen, comprising: a support;  a first phosphor layer disposed on the support and constituted of particles of a first phosphor having an average particle diameter of D 1  and a range coefficient k, which expresses particle size distribution, in the range of from 1.3 to 1.8;  a second phosphor layer disposed on the first phosphor layer and constituted of particles of a second phosphor having an average particle diameter of D 2  that satisfies D 2  greater than D 1  and a range coefficient k of particle size distribution of in the range of from 1.5 to 2.0; and  a protective film disposed on the second phosphor layer. 2. The intensifying screen as set forth in  claim 1 : claim 1 wherein average particle diameter D 1  of the particles of the first phosphor is in the range of from 1 to 5 xcexcm and average particle diameter D 2  of the particles of the second phosphor is in the range of from 5 to 20 xcexcm. 3. The intensifying screen as set forth in  claim 1 : claim 1 wherein when a range coefficient of the particles of the first phosphor is k 1  and a range coefficient of the particles of the second phosphor is k 2 , the particles of the first and second phosphors satisfy a relationship of k 1  less than k 2 . 4. The intensifying screen as set forth in  claim 1 : claim 1 wherein when a coating weight per unit area of the particles of the first phosphor in the first phosphor layer is CW 1  and a coating weight per unit area of the particles of the second phosphor in the second phosphor layer is CW 2 , the ratio of the CW 1  and CW 2  (CW 1 :CW 2 ) is in the range of from 8:2 to 6:4. 5. The intensifying screen as set forth in  claim 1 : claim 1 wherein the first and second phosphors layer comprises rare earth phosphors. 6. A radiation receptor, comprising: a film for detecting radiation;  a front intensifying screen laminated along a surface of subject side of the film and consisting of the intensifying screen as set forth in  claim 1 ;  claim 1 a back intensifying screen laminated along a surface of opposite side from the subject side and consisting of the intensifying screen as set forth in  claim 1 ; and  claim 1 a cassette accommodating the front intensifying screen, the film and the back intensifying screen. 7. The radiation receptor as set forth in  claim 6 : claim 6 wherein when a total coating weight per unit area of phosphor particles of the first and second phosphor layers of the front intensifying screen is TCW f  and a total coating weight per unit area of phosphor particles of the first and second phosphor layers of the back intensifying screen is TCW b , the ratio of TCW f  and TCW b  (TCW f :TCW b ) is in the range of 3:7 to 4:6. 8. A device for radiation inspection, comprising: a radiation source; and  the radiation receptor that is set forth in  claim 6  disposed opposite to the radiation source through a subject.  claim 6 9. An intensifying screen, comprising: a support;  a first phosphor layer disposed on the support and constituted of particles of a first phosphor having an average particle diameter of D 1 ;  a second phosphor layer disposed on the first phosphor layer and constituted of particles of a second phosphor having an average particle diameter of D 2  satisfying D 2  greater than D 1 ; and  a protective film disposed on the second phosphor layer;  wherein when a coating weight per unit area of the particles of the first phosphor in the first phosphor layer is CW 1  and a coating weight per unit area of the particles of the second phosphor in the second phosphor layer is CW 2 , the ratio of the CW 1  and CW 2  (CW 1 :CW 2 ) is in the range of from 8:2 to 6:4. 10. The intensifying screen as set forth in  claim 9 : claim 9 wherein average particle diameter D 1  of the particles of the first phosphor is in the range of from 1 to 5 xcexcm and average particle diameter D 2  of the particles of the second phosphor is in the range of from 5 to 20 xcexcm. 11. The intensifying screen as set forth in  claim 9 : claim 9 wherein the first and second phosphors layer comprises rare earth phosphors. 12. A radiation receptor, comprising: a film for detecting radiation;  the front intensifying screen that is laminated along on a surface of subject side of the film and is set forth in  claim 9 ;  claim 9 the back intensifying screen that is laminated along on a surface opposite to the subject side of the film and is set forth in  claim 9 ; and  claim 9 a cassette accommodating the front intensifying screen, the film and the back intensifying screen. 13. The radiation receptor as set forth in  claim 12 : claim 12 wherein when a total coating weight per unit area of phosphor particles of the first and second phosphor layers of the front intensifying screen is TCW f  and a total coating weight per unit area of phosphor particles of the first and second phosphor layers of the back intensifying screen is TCW b , the ratio of TCW f  and TCW b  (TCW f :TCW b ) is in the range of 3:7 to 4:6. 14. A device for radiation inspection, comprising: a radiation source;  the radiation receptor that is set forth in  claim 12  disposed opposite to the radiation source through a subject.  claim 12 15. An intensifying screen, comprising: a support;  a phosphor layer disposed on the support;  a protective layer disposed on the phosphor layer; and  a powder layer disposed between the support and the phosphor layer, consisting of at least one kind of particles selected from simple particles of metal, alloy particles consisting mainly of metal and compound particles consisting mainly of metal, and having a thickness of 2 to 40 kg/m 2  in terms of weight per unit area. 16. The intensifying screen as set forth in  claim 15 : claim 15 wherein the metal is heavy metal. 17. The intensifying screen as set forth in  claim 16 : claim 16 wherein the heavy metal is at least one kind selected from W, Mo, Nb and Ta. 18. The intensifying screen as set forth in  claim 16 : claim 16 wherein an amount of the metal in the particles constituting the powder layer is 60% or more by weight. 19. The intensifying screen as set forth in  claim 16 : claim 16 wherein the particles are at least one kind selected from Wxe2x80x94Re alloy, Wxe2x80x94Mo alloy, Wxe2x80x94Nb alloy, Wxe2x80x94Ta alloy, Moxe2x80x94Nb alloy, Moxe2x80x94Ta alloy, Nbxe2x80x94Ta alloy, WC, WO 3 , MoO 3 , MoC, Nbxe2x80x94C and Taxe2x80x94C. 20. The intensifying screen as set forth in  claim 16 : claim 16 wherein the compounds consisting mainly of the metal are consisting of at least one kind selected from carbides of the metal and oxides of the metal. 21. The intensifying screen as set forth in  claim 15 : claim 15 wherein the intensifying screen is one that is used with X-rays of high energy.