Claims
- 1. An upconversion laser system for convening relatively long wavelength, substantially coherent single band infrared radiation that is at least quasi-continuous to relatively short wavelength optical radiation, comprising:
- a pumping source that has at least a quasi-continuous output of said substantially coherent single band infrared radiation;
- an active lasant material comprising a fluoride crystal host, a sensitizer comprising a concentration of ytterbium sensitizer ions in said host that has a quantum energy level that is shifted from the .sup.4 F.sub.5/2 state to the .sup.4 F.sub.7/2 state by absorption of said infrared radiation and rapidly decay back to said .sup.4 F.sub.5/2 state, an activator comprising a concentration of thulium activator ions in said host, as a percentage of available rare earth sites in said host in the range of 0.1 to 10 percent, that accept energy from at least some of said sensitizer ions that decay from said .sup.4 F.sub.7/2 state to said .sup.4 F.sub.5/2 state by substantially non-radiative transfer so that at least some of said activator ions have quantum energy levels that are raised from the .sup.3 H.sub.6 state through at least one intermediate state to a relatively highest state during successive ones of said energy transfers from said sensitizer ions to said activator ions, and rapidly decay from said highest state to a relatively low state to produce substantially coherent radiation that has a shorter wavelength than said infrared radiation; and
- an optical cavity for resonating said coherent radiation produced by said lasant material.
- 2. An upconversion laser system for converting relatively long wavelength, substantially coherent single band infrared radiation that is at least quasi-continuous to relatively short wavelength optical radiation, comprising:
- a pumping source that has at least a quasi-continuous output of said substantially coherent single band infrared radiation;
- an active lasant material comprising a fluoride crystal host, a sensitizer comprising a concentration of ytterbium sensitizer ions in said host that has a quantum energy level that is shifted from the .sup.4 F.sub.5/2 state to the .sup.4 F.sub.7/2 state by absorption of said infrared radiation and rapidly decay back to said .sup.4 F.sub.5/2 state, an activator comprising a concentration of erbium activator ions in said host, as a percentage of available rare earth sites in said host in the range of 0.1 to 10 percent, that accept energy from at least some of said sensitizer ions that decay from said .sup.4 F.sub.7/2 state to said .sup.4 F.sub.5/2 state by substantially non-radiative transfer so that at least some of said activator ions have quantum energy levels that are raised from the .sup.4 I.sub.15/2 state through at least one intermediate state to a relatively highest stare during successive ones of said energy transfers from said sensitizer ions to said activator ions, and rapidly decay from said highest state to a relatively low state to produce substantially coherent radiation that has a shorter wavelength than said infrared radiation; and
- an optical cavity for resonating said coherent radiation produced by said lasant material.
- 3. An upconversion laser system for converting relatively long wavelength, substantially coherent single band infrared radiation that is at least quasi-continuous to relatively short wavelength optical radiation, comprising:
- a pumping source that has at least a quasi-continuous output of said substantially coherent single band infrared radiation;
- an active lasant material comprising a fluoride crystal host, a sensitizer comprising a concentration of ytterbium sensitizer ions in said host that has a quantum energy level that is shifted from the .sup.4 F.sub.5/2 state to the .sup.4 F.sub.7/2 state by absorption of said infrared radiation and rapidly decay back to said .sup.4 F.sub.5/2 state, an activator comprising a concentration of holmium activator ions in said host, as a percentage of available rare earth sites in said host in the range of 0.1 to 10 percent, that accept energy from at least some of said sensitizer ions that decay from said .sup.4 F.sub.7/2 state to said .sup.4 F.sub.5/2 state by substantially non-radiative transfer so that at least some of said activator ions have quantum energy levels that are raised from the .sup.5 I.sub.8 state through at least one intermediate state to a relatively highest state during successive ones of said energy transfers from said sensitizer ions to said activator ions, and rapidly decay from said highest state to a relatively low state to produce substantially coherent radiation that has a shorter wavelength than said infrared radiation; and
- an optical cavity for resonating said coherent radiation produced by said lasant material.
- 4. An upconversion laser system for converting relatively long wavelength, substantially coherent single band infrared radiation that is at least quasi-continuous to relatively short wavelength optical radiation, comprising:
- a pumping source that has at least a quasi-continuous output of said substantially coherent single band infrared radiation;
- an active lasant material comprising a fluoride glass host, a sensitizer comprising a concentration of ytterbium sensitizer ions in said host that has a quantum energy level that is shifted from the .sup.4 F.sub.5/2 state to the .sup.4 F.sub.7/2 state by absorption of said infrared radiation and rapidly decay back to said .sup.4 F.sub.5/2 state, an activator comprising a concentration of thulium activator ions in said host, as a percentage of available rare earth sites in said host in the range of 0.1 to 10 percent, that accept energy from at least some of said sensitizer ions that decay from said .sup.4 F.sub.7/2 state to said .sup.4 F.sub.5/2 stat by substantially non-radiative transfer so that at least some of said activator ions have quantum energy levels that are raised from the .sup.3 H.sub.6 state through at least one intermediate state to a relatively highest state during successive ones of said energy transfers from said sensitizer ions to said activator ions, and rapidly decay from said highest state to a relatively low state to produce substantially coherent radiation that has a shorter wavelength than said infrared radiation; and
- an optical cavity for resonating said coherent radiation produced by said lasant material.
- 5. An upconversion laser system for convening relatively long wavelength, substantially coherent single band infrared radiation that is at least quasi-continuous to relatively short wavelength optical radiation, comprising:
- a pumping source that has at least a quasi-continuous output of said substantially coherent single band infrared radiation;
- an active lasant material comprising a fluoride glass host, a sensitizer comprising a concentration of ytterbium sensitizer ions in said host that has a quantum energy level that is shifted from the .sup.4 F.sub.5/2 state to the .sup.4 F.sub.7/2 state by absorption of said infrared radiation and rapidly decay back to said .sup.4 F.sub.5/2 state, an activator comprising a concentration of erbium activator ions in said host, as a percentage of available rare earth sites in said host in the range of 0.1 to 10 percent, that accept energy from at least some of said sensitizer ions that decay from said .sup.4 F.sub.7/2 state to said .sup.4 F.sub.5/2 state by substantially non-radiative transfer so that at least some of said activator ions have quantum energy levels that are raised from the .sup.4 I.sub.15/2 state through at least one intermediate state to a relatively highest state during successive ones of said energy transfers from said sensitizer ions to said activator ions, and rapidly decay from said highest state to a relatively low state to produce substantially coherent radiation that has a shorter wavelength than said infrared radiation; and
- an optical cavity for resonating said coherent radiation produced by said lasant material.
- 6. An upconversion laser system for converting relatively long wavelength, substantially coherent single band infrared radiation that is at least quasi-continuous to relatively short wavelength optical radiation, comprising:
- a pumping source that has at least a quasi-continuous output of said substantially coherent single band infrared radiation;
- an active lasant material comprising a fluoride glass host, a sensitizer comprising a concentration of ytterbium sensitizer ions in said host that has a quantum energy level that is shifted from the .sup.4 F.sub.5/2 state to the .sup.4 F.sub.7/2 state by absorption of said infrared radiation and rapidly decay back to said .sup.4 F.sub.5/2 state, an activator comprising a concentration of holmium activator ions in said host, as a percentage of available rate earth sites in said host in the range of 0.1 to 10 percent, that accept energy from at least some of said sensitizer ions that decay from said .sup.4 F.sub.7/2 state to said .sup.4 F.sub.5/2 state by substantially non-radiative transfer so that at least some of said activator ions have quantum energy levels that are raised from the .sup.5 I.sup.8 state through at least one intermediate state to a relatively highest state during successive ones of said energy transfers from said sensitizer ions to said activator ions, and rapidly decay from said highest state to a relatively low state to produce substantially coherent radiation that has a shorter wavelength than said infrared radiation; and
- an optical cavity for resonating said coherent radiation produced by said lasant material.
CROSS-REFERENCE TO RELATED APPLICATIONS
This application is a continuation-in-part of U.S. Ser. No. 07/765,381 that was filed on Sep. 25, 1991, now D 341,719.
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Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
765381 |
Sep 1991 |
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