Tunable optical filter and method of manufacture thereof
First Claim
1. A tunable optical filter comprising:
- an electro-optic ceramic substrate having first and second parallel surfaces, said electro-optic ceramic substrate no more than 160 μ
m thick;
first and second end substrates arranged on either side of said electro-optic ceramic substrate, each end substrate having an inner parallel surface arranged toward said electro-optic ceramic substrate and an outer parallel surface arranged away from said electro-optic ceramic substrate, said inner parallel surface covered by an electrode layer and a reflecting layer; and
an adhesive attaching said electro-optic ceramic substrate to said first and second end substrates, said adhesive having a consistency so as to avoid stress on said electro-optic ceramic substrate;
whereby a voltage imposed on said electro-optic ceramic substrate by said electrode layers on said inner parallel surfaces of said first and second end substrates effectively controls an optical distance between said reflecting layers on said inner parallel surfaces of said first and second end substrates.
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Abstract
A tunable optical filter is formed in the structure of an etalon. A thin electro-optic ceramic substrate is fixed between two end substrates. Each end substrate has an inner parallel surface toward said electro-optic ceramic substrate covered by an electrode layer and a reflecting layer. An adhesive which attaches the electro-optic ceramic substrate to each first and second end substrates has a consistency so as to avoid stress on the electro-optic ceramic substrate. A voltage imposed on the electro-optic ceramic substrate by the electrode layers on the inner parallel surfaces of the first and second end substrates effectively controls an optical distance between the reflective coating layers on the inner parallel surfaces of the first and second end substrates of the etalon structure. The electro-optic ceramic substrate is preferably PMN-PT ((1-x)Pb(Mg⅓Nb⅔)O3-x—PbTiO3) and no more than 160 μm thick.
6 Citations
11 Claims
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1. A tunable optical filter comprising:
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an electro-optic ceramic substrate having first and second parallel surfaces, said electro-optic ceramic substrate no more than 160 μ
m thick;first and second end substrates arranged on either side of said electro-optic ceramic substrate, each end substrate having an inner parallel surface arranged toward said electro-optic ceramic substrate and an outer parallel surface arranged away from said electro-optic ceramic substrate, said inner parallel surface covered by an electrode layer and a reflecting layer; and an adhesive attaching said electro-optic ceramic substrate to said first and second end substrates, said adhesive having a consistency so as to avoid stress on said electro-optic ceramic substrate; whereby a voltage imposed on said electro-optic ceramic substrate by said electrode layers on said inner parallel surfaces of said first and second end substrates effectively controls an optical distance between said reflecting layers on said inner parallel surfaces of said first and second end substrates. - View Dependent Claims (2, 3, 4, 5)
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6. A method of manufacturing a tunable optical filter comprising:
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depositing an electrode layer and a reflective coating layer on a flat surface of first and second end substrates; polishing an electro-optic ceramic substrate to no more than 160 μ
m thick;arranging said first and second end substrates so that said flat surface of each end substrate faces each other with said electro-optic ceramic substrate having first and second parallel surfaces therebetween; and attaching said electro-optic ceramic substrate to each flat surface of each first and second end substrates with an adhesive having a consistency so as to avoid stress on said electro-optic ceramic substrate. - View Dependent Claims (7, 8, 9)
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10. A method of manufacturing a tunable optical filter comprising:
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polishing flat parallel surfaces of an electro-optic ceramic substrate; covering said parallel surfaces of said electro-optic ceramic substrate with anti-reflection layers, each anti-reflection layer in contact with a parallel surface of said electro-optic ceramic substrate; depositing an electrode layer and a reflecting layer on a flat surface of first and second end substrates; and arranging first and second end substrates having flat surfaces with said electro-optic ceramic substrate therebetween, a flat surface of each end substrate contacting an anti-reflection layer covering a flat parallel surface of said electro-optic ceramic substrate to minimize light reflection caused by air pockets between said electro-optic ceramic substrate and said first and second end substrates. - View Dependent Claims (11)
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Specification