Tunable filter, manufacturing method thereof and optical switching device comprising the tunable filter
First Claim
1. A tunable filter comprising:
- a first substrate;
a second substrate;
a first and a fourth optical multilayer films respectively formed on confronting surfaces of said first substrate and said second substrate;
a second optical multilayer film disposed with a clearance from said first optical multilayer film and supported by said first substrate through an elastically deformable spring portion;
a third optical multilayer film disposed between said second optical multilayer film and said fourth optical multilayer film with a clearance from both of them and supported by said second substrate through an elastically deformable spring portion;
a supporting member for mutually supporting said first substrate and said second in such a manner that a clearance between said first substrate and said second substrate can be changed; and
a first, a second, and a third driving devices for respectively changing said clearance between said first and said second optical multilayer films, said clearance between said third and said fourth optical multilayer films, and said clearance between said first substrate and said second substrate.
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Abstract
The invention provides a tunable filter that can minimize adjacent channel cross talk despite an increase of a number of available wavelengths and quickly switch a wavelength to be used, and manufacturing method thereof, and also an optical switching device comprising such tunable filter. In a tunable filter having a Fabry-Perot etalon structure, not less than two cavity gaps 114 to 116 are provided and separation between the cavity gaps is controlled by any of electrostatic drive, electromagnetic drive or piezoelectric drive. In this case, the cavity gaps can be formed through the steps of forming a sacrificial layer in advance where a cavity gap is to be formed; forming a plurality of optical multilayer films 100 to 103; and removing the sacrificial layer by etching. Substrates 107 and 109 are combined through a supporting column 108.
230 Citations
16 Claims
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1. A tunable filter comprising:
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a first substrate;
a second substrate;
a first and a fourth optical multilayer films respectively formed on confronting surfaces of said first substrate and said second substrate;
a second optical multilayer film disposed with a clearance from said first optical multilayer film and supported by said first substrate through an elastically deformable spring portion;
a third optical multilayer film disposed between said second optical multilayer film and said fourth optical multilayer film with a clearance from both of them and supported by said second substrate through an elastically deformable spring portion;
a supporting member for mutually supporting said first substrate and said second in such a manner that a clearance between said first substrate and said second substrate can be changed; and
a first, a second, and a third driving devices for respectively changing said clearance between said first and said second optical multilayer films, said clearance between said third and said fourth optical multilayer films, and said clearance between said first substrate and said second substrate. - View Dependent Claims (2, 3, 4, 5, 12)
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6. A tunable filter comprising:
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a first substrate;
a second substrate;
not less than three optical multilayer films disposed between confronting surfaces of said first substrate and said second substrate;
a plurality of supporting members for mutually supporting the respective pairs consisting of adjacent ones among said first substrate, said second substrate and said optical multilayer films in such a manner that a clearance between said adjacent ones can be changed; and
a plurality of driving devices for changing a clearance between said adjacent optical multilayer films and a clearance between said first and said second substrates. - View Dependent Claims (7, 8, 13)
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9. A tunable filter comprising:
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a substrate;
a first optical multilayer film formed on a surface of said substrate;
a plurality of second optical multilayer films disposed with a clearance from said first optical multilayer film and between one another and respectively supported by said substrate through an elastically deformable spring portion; and
a plurality of driving devices for changing said clearance between adjacent ones among said first optical multilayer film and said second optical multilayer films. - View Dependent Claims (10, 11, 14)
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15. Method of manufacturing a tunable filter comprising:
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the steps of forming a first optical multilayer film on a first substrate;
forming a first sacrificial layer on said first optical multilayer film;
forming a second optical multilayer film on said first sacrificial layer;
forming a first spring portion that connects said second optical multilayer film and said first substrate;
removing said first sacrificial layer by etching thus to form a gap between said first and said second optical multilayer films;
forming a fourth optical multilayer film on a second substrate;
forming a second sacrificial layer on said fourth optical multilayer film;
forming a third optical multilayer film on said second sacrificial layer;
forming a second spring portion that connects said third optical multilayer film and said second substrate;
removing said second sacrificial layer by etching thus to form a gap between said third and said fourth optical multilayer films; and
combining said first substrate and said second substrate with a clearance between said second optical multilayer film and said third optical multilayer film; and
providing a first driving device between said first and said second optical multilayer films;
providing a second driving device between said third and said fourth optical multilayer films; and
providing a third driving device between said first and said second substrates.
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16. Method of manufacturing a tunable filter comprising:
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the steps of forming a first optical multilayer film on a substrate;
forming a plurality of layered composites including sacrificial layers and second optical multilayer films on said first optical multilayer film and a plurality of spring portions respectively connecting each of said second optical multilayer films with said substrate;
removing said sacrificial layers by etching thus to form a gap between adjacent ones among said first and said second optical multilayer films; and
providing a driving device between said adjacent ones among said first and said second optical multilayer films respectively.
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Specification