Claims
- 1. An optical filter that has a wavelength response over a portion of the spectrum and that is tunable to different wavelengths in said portion of the spectrum, said optical filter comprising:
a core with a long period grating disposed thereon; a first cladding layer disposed on said core and a second electro-optic cladding layer disposed on said first cladding layer, wherein said first cladding layer has an ultra-thin thickness that supports therein only a single resonant band over said portion of the spectrum, and wherein said resonant band is tunable to said different wavelengths by a voltage applied to said second electro-optic cladding layer.
- 2. The optical filter of claim 1, wherein said single resonant band has a bandwidth less than about 0.5 nanometers and sidelobes less than about 30 dB.
- 3. The optic filter of claim 1, wherein said core and said first cladding layer are each formed of silica fiber material.
- 4. The optical filter of claim 3, wherein said second electro-optic layer is a polymer that has a refractive index lower than a refractive index of said silica fiber material.
- 5. The optical filter of claim 4, further comprising first and second electrodes disposed in electrical contact with said second cladding layer, and wherein said voltage is applied to said first and second electrodes.
- 6. The optical filter of claim 4, wherein said polymer is a copolymer.
- 7. The optical filter of claim 6, wherein said copolymer is poly(vinylidene flouride-trifluoroethylene).
- 8. The optical filter of claim 1, wherein said core is substantially cylindrical, wherein said first cladding layer is disposed on a surface of said cylindrical core, and wherein said second cladding layer is disposed on top of said first cladding layer.
- 9. An optical filter that has a wavelength response over a portion of the spectrum and that is tunable to different wavelengths in said portion of the spectrum, said optical filter comprising:
a core with a long period grating disposed thereon; a first cladding layer disposed on said core and a second cladding layer disposed on said first cladding layer, wherein said second cladding layer is formed of a polymer with an electro-optic property such that, when a voltage is applied thereto, the filter is tunable to said different wavelengths..
- 10. The optical filter of claim 9, wherein said core and said first cladding material are formed of silica fiber material, and wherein said polymer has a refractive index lower than a refractive index of said silica fiber material.
- 11. The optical filter of claim 10, wherein said polymer is poly(vinylidene flouride-trifluoroethylene).
- 12. The optical filter of claim 9, further comprising first and second electrodes disposed in electrical contact with said polymer, and wherein said voltage is applied to said first and second electrodes.
- 13. An electro-optical device comprising:
a core with a long period grating disposed thereon; a first cladding layer disposed on said core and a second electro-optic cladding layer disposed on said first cladding layer, wherein said second electro-optic layer is a polymer.
- 14. The electro-optical device of claim 13, wherein said core is substantially cylindrical, wherein said first cladding layer is disposed on a surface of said cylindrical core, and wherein said second cladding layer is disposed on top of said first cladding layer.
- 15. The electro-optical device of claim 13, wherein said core and said first cladding layer are formed of silica fiber material.
Parent Case Info
[0001] This Application claims the benefit of U.S. Provisional Application No. 60/187,284, filed Mar. 6, 2000.
Provisional Applications (1)
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Number |
Date |
Country |
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60187284 |
Mar 2000 |
US |