Electro-optically tunable filter with mesh structure to filter optical signal
First Claim
1. A tunable electro-optical filter, comprising:
- an electro-optical crystal having an input portion and an output portion, the output portion diametric to the input portion, wherein the electro-optical crystal changes its refractive index when an electric field is applied to it;
an electrode in electrical contact with the output portion of the electro-optical crystal; and
an electrically conductive mesh structure adapted to filter a received optical signal in order to provide a filtered optical signal of selected narrow passband to the input portion of the electro-optical crystal, said mesh structure further adapted to cooperatively act with the electrode to apply an electric field to the electro-optical crystal.
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Accused Products
Abstract
The present invention provides configurations for an electro-optically tunable filter. The filter includes an electro-optical crystal, at least one electrically conductive mesh screen, at least one electrode and a voltage source. In one embodiment, an electrical voltage passes from a source to a mesh screen contacting the crystal, through the crystal and an electrode on the crystal'"'"'s opposite end. The mesh screen creates a narrow bandpass. The optical properties of the mesh screen-crystal combination are determined partially by the refractive index of the crystal when a voltage is applied to the mesh screen. Variable voltages change the refractive index of the crystal, creating varying spectral positions of the filter. Application of a voltage between the mesh screen and the electrode creates a field internal to the crystal that changes its refractive index, allowing it to be tunable in the bandpass location thereby affecting a passing light signal.
17 Citations
21 Claims
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1. A tunable electro-optical filter, comprising:
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an electro-optical crystal having an input portion and an output portion, the output portion diametric to the input portion, wherein the electro-optical crystal changes its refractive index when an electric field is applied to it;
an electrode in electrical contact with the output portion of the electro-optical crystal; and
an electrically conductive mesh structure adapted to filter a received optical signal in order to provide a filtered optical signal of selected narrow passband to the input portion of the electro-optical crystal, said mesh structure further adapted to cooperatively act with the electrode to apply an electric field to the electro-optical crystal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A tunable electro-optical filter, comprising:
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a single electro-optical crystal having an input portion and an output portion, the output portion diametric to the input portion, wherein the electro-optical crystal changes its refractive index when an electric field is applied to it;
an electrode covering and in electrical contact with a selected one of said portions of the electro-optical crystal; and
electrically conductive material arranged to form a grid pattern on the non-selected one of said portions of the electro-optical crystal, said grid pattern adapted to filter a received wide band optical signal to provide a filtered optical signal of selected narrow passband, said grid pattern further adapted to cooperatively act with the electrode to apply an electric field to the electro-optical crystal. - View Dependent Claims (11, 12, 13)
the grid pattern is provided with an array of spaced apart rectangular apertures, the width of the transmission spectrum produced by the grid pattern being determined by the size of respective apertures, and the spacing between apertures being the same along each of two orthogonal axes.
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12. The tunable electro-optical filter of claim 10 wherein:
the grid pattern is provided with an array of apertures and is operated as an inductive mesh filter.
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13. The tunable electro-optical filter of claim 10 wherein:
the grid pattern comprises an array of spaced apart elements of said conductive material and is operated as a capacitive mesh filter.
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14. A method of producing a narrow band optical signal from a wider band optical signal, comprising;
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placing a mesh formed of electrically conductive material and configured to operate as an optical filter on a first face of an electro-optical crystal;
projecting the wider band optical signal through the mesh so that the wider hand signal is filtered by the mesh to produce the narrow band optical signal, and the narrow band signal is applied to the first face of the electro-optical crystal as the input thereto; and
applying a voltage to the mesh and to an electrode located on a second face of the electro-optical crystal diametric to the first face to select the spectral position of the narrow band optical signal when the narrow band signal is outputted from the electro-optical crystal. - View Dependent Claims (15, 16)
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17. A tunable electro-optical filter, comprising:
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an electro-optical crystal having an input portion and an output portion, the output portion diametric to the input portion, wherein the electro-optical crystal changes its refractive index when an electric field is applied to it, the electro-optical crystal being further provided with first and second sides in diametrically opposing relationship with each other, both of said sides extending between the input and output portions of the electro-optical crystal;
an electrically conductive mesh filter covering and in electrical contact with the input portion of the electro-optical crystal, wherein the electrically conductive mesh filter is adapted to filter a received optical signal and to provide an input signal of selected narrow passband;
a first electrode covering and in electrical contact with said first side of the electro-optical crystal and contiguous to the electrically conductive mesh filter;
a second electrode covering and in electrical contact with said second side of the electro-optical crystal, contiguous to the electrically conductive mesh filter and diametric to the first electrode; and
a voltage source in electrical contact with the first electrode and the second electrode. - View Dependent Claims (18, 19, 20, 21)
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Specification