Claims
- 1. A process for forming an anisotropic, auto-collimating imaging screen using vapor deposition techniques, which comprises:a) positioning an imaging screen substrate on a substrate fixture; b) positioning said substrate fixture in a vapor deposition chamber having a vapor generator, said substrate fixture being positioned at an oblique angle to said vapor generator; c) introducing phosphor constituents into said vapor generator capable of forming a vapor of said phosphor constituents; d) placing said chamber under an inert atmosphere; e) activating said vapor generator to form an ingot pool of said -phosphor constituents and, thereby generate said vapor of said phosphor constituents; f) directing said vapor of said phosphor constituents towards said substrate fixture; g) maintaining a constant height of said ingot pool of said phosphor constituents in said vapor generator; and h) rotating said substrate fixture for a time sufficient to effect deposition of a phosphor complex on said imaging screen substrate to thereby form said anisotropic, auto-collimating imaging screen.
- 2. The process for forming an anisotropic, auto-collimating imaging screen as described in claim 1 wherein said phosphor complex is selected from the group consisting of rare earth activated alkali earth halides, rare earth activated alkali metal halides, metal activated alkali earth halides, or metal activated alkali metal halides.
- 3. The process for forming an anisotropic imaging screen as described in claim 2 in which said phosphor complex is an electron trapping storage phosphor.
- 4. The process for forming an anisotropic imaging screen as described in claim 3 wherein said phosphor complex is europium doped barium fluorobromide.
- 5. The process for forming an anisotropic imaging screen as described in claim 4 wherein said phosphor constituents are barium bromide, barium fluoride and either europium bromide or europium fluoride.
- 6. The process for forming an anisotropic imaging screen as described in claim 2 wherein said phosphor complex is a scintillator.
- 7. The process for forming an anisotropic imaging screen as described in claim 6 wherein said phosphor complex is thallium doped cesium iodide.
- 8. The process for forming an anisotropic imaging screen as described in claim 2 wherein depositing of said phosphor complex is effected for a time sufficient to deposit a layer of between 25 and 500 microns thick.
- 9. The process for forming an anisotropic imaging screen as set forth in claim 2 wherein rate of vapor deposition is from about 0.1 to 10 microns per minute.
- 10. The process for forming an anisotropic imaging screen as described in claim 2 wherein said inert atmosphere includes argon.
- 11. The process for forming an anisotropic imaging screen as described in claim 1 wherein pressure in said deposition chamber is between 1.0 to 50 mtorr.
Parent Case Info
This is a divisional of application Ser. No. 08/880,226, filed Jun. 23, 1997, now U.S. Pat. No. 5,904,871.
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