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Title: Penetration phosphors and display devices
Claims: I claim: 1. An electron tube including an evacuated envelope, a cathodo-luminescent screen therein, and means for exciting said screen within said envelope by electrons, said screen including cathodo-luminescent particles each comprising: a generally central region, and a generally peripheral region surrounding said central region in contiguous relation therewith, said particle being composed of a La phosphor material with a substantially uniform distribution of Tb ions, and said generally peripheral region having a distribution of Eu ions increasing toward the exterior surface of said particle, said La phosphor material being La.sub.2 O.sub.2 S, said Tb ions being provided by Tb.sub.2 O.sub.2 S, said Eu ions being provided by Eu.sub.2 O.sub.2 S, and the respective concentrations of Tb.sub.2 O.sub.2 S and Eu.sub.2 O.sub.2 S each being substantially smaller than the concentration of La.sub.2 O.sub.2 S. 2. An electron tube as described in claim 1 wherein the relative concentrations of said Tb and Eu ions are such that relatively low velocity electrons striking any one of said particles excite Eu and Tb ions in said peripheral region preferentially to produce red line emission, and relatively high velocity electrons striking one of said particles excite said Tb ions in said central region preferentially to produce green line emission. 3. An electron tube as described in claim 1 wherein the concentration ratio of moles of Eu.sub.2 O.sub.2 S to moles of La.sub.2 O.sub.2 S lies between 0.001 and 0.1. 4. An electron tube as described in claim 3 wherein the concentration ratio of moles of Tb.sub.2 O.sub.2 S to moles of La.sub.2 O.sub.2 S lies between 0.01 and 0.04. 5. An electron tube as described in claim 1 wherein said cathodo-luminescent particles are produced by: selection of La.sub.2 O.sub.2 S particles containing uniformly distributed Tb ions provided by Tb.sub.2 O.sub.2 S, mixing said selected La.sub.2 O.sub.2 S particles with a powdered organic Eu compound to obtain a composite powder, ball milling said composite powder in an inert liquid, and firing said composite powder and cooling same in an atmosphere containing at least H.sub.2 S gas for diffusing said Eu ions into said generally peripheral region where said Eu ions provide quenching of electron induced spectral green radiation, said ball milling process substantially increasing the voltage at which perceptible optical emission is instituted by electron bombardment of said particles. 6. An electron tube as described in claim 5 wherein said composite powder is fired at a temperature lying between substantially 800.degree. and 1200.degree. Centigrade. 7. An electron tube as described in claim 5 wherein said composite powder is fired at a temperature lying between substantially 900.degree. and 1000.degree. Centigrade for at least 30 minutes. 8. An electron tube as described in claim 5 wherein said atmosphere comprises a gas mixture of Ar, H.sub.2 S, and H.sub.2 O. 9. An electron tube as described in claim 5 wherein said powdered Eu organic compound consists of a pentanedionate of Eu. 10. An electron tube as described in claim 5 wherein said powdered Eu organic compound consists of a chelate of Eu. 11. An electron tube as described in claim 5 wherein said powdered Eu organic compound consists of oxalate of Eu. 12. An electron tube as described in claim 9 wherein after firing said composite powder and cooling same, at least one serial-doping process is interposed comprising: adding by mixing a further portion powdered Eu organic compound to said fired and cooled composite powder to form a further powder mixture, firing said further powder mixture and cooling same in said atmosphere containing at least H.sub.2 S gas, and preparing the said film from said fired and cooled further powder mixture, said serial-doping process substantially increasing the voltage at which perceptible optical emission is instituted by electron bombardment of said particles. 13. An electron tube as described in claim 1 wherein said screen additionally contains uniformly dispersed particles of a second cathodo-luminescent material having uniformly distributed Eu as activator ions. 14. An electron tube as described in claim 13 wherein said second cathodo-luminescent material is a red emitting phosphor. 15. An electron tube as described in claim 13 wherein said red emitting phosphor is YVO.sub.4. 16. An electron tube including an evacuated envelope, a cathodo-luminescent screen therein, and means for exciting said screen within said envelope by electrons, said screen having cathodo-luminescent particles each comprising: a generally central region composed of a La.sub.2 O.sub.2 S : Tb.sub.2 O.sub.2 S phosphor, a generally peripheral region surrounding said central region in contiguous relation therewith composed of La.sub.2 O.sub.2 S : Tb.sub.2 O.sub.2 S : Eu.sub.2 O.sub.2 S phosphor, the La.sub.2 O.sub.2 S and Tb.sub.2 O.sub.2 S materials being substantially uniformly distributed in said particle and the relative concentrations of said Tb.sub.2 O.sub.2 S and said Eu.sub.2 O.sub.2 S being such that relatively low velocity electrons striking any one of said particles excite said phosphor in said peripheral region preferentially to produce red line emission, and relatively high velocity electrons striking one of said particles excite said phosphor in said central region preferentially to produce green line emission. 17. An electron tube as described in claim 16 wherein the concentration ratio of moles of Eu.sub.2 O.sub.2 S to moles of La.sub.2 O.sub.2 S lies between 0.001 and 0.1. 18. An electron tube as described in claim 17 wherein the concentration ratio of moles of Tb.sub.2 O.sub.2 S to moles of La.sub.2 O.sub.2 S lies between 0.01 and 0.04. 19. An electron tube as described in claim 18 wherein said screen additionally contains uniformly dispersed particles of a second cathodo-luminescent material for producing enhancing line emission falling substantially on one of said red or green line emissions. 20. An electron tube as described in claim 19 wherein said enhancing line emission falls substantially on said red line emission. Other info: Inventors: Ignasiak, Stanley F. (Marlboro, MA, US) Application Number: 505710 Filing Date: 1974-09-13 Publication_date: 1976-02-17 Assignee: Sperry Rand Corporation (New York, NY) Primary Class(es): 313/468 252/301.4S, 427/68, 427/215, 428/323, 428/330, 428/402, 428/403, 428/404 Other Classes: US Patent Ref:
Other Refs: Other References: Kingsley et al., "Voltage Depondence of Cathode-Ray Efficiency of Phospors: Phospor Particles with Nonluminescent Coatings", Journal of Applied Physics, (Vol. 43, No. 7), July 1972. Prenor et al., "Voltage-Controlled Multicolor CRT Phospors: Preparation and Characteristics", Journal of Electrochemistry, (Vol. 119, No. 9), Sept. 1972. Tecotzky et al., "A New Phospor Approach for Multicolor Displays", presented at Electrochemical Society Meeting, Cleveland, Ohio, Oct. 3, 1971. Dobrov et al., "Photoconductivity and Luminescence in Lonthanum Oxysulfide", Chemical Abstracts, Vol. 77, Abstract 145260j. Luckey, "Lanthanum and Gadolinium Oxysulfide Phosphors", Chemical Abstracts, Vol. 77, Abstract 119820x. Jewett et al., "EPR of Terbium (3+), Praseodymium (3+), Gadolinium (3+), and Eurpium (3+), Ions in Single Crystal Lanthanum Oxysulfide", Chemical Asbstract Vol. 81, Abstract 17958n. | |