Reflection diffraction grating having a controllable blaze angle
First Claim
1. A blazed reflection diffraction grating comprising:
- a first electrode coupled to a substrate material;
an elastomeric material coupled to said first electrode, said elastomeric material deformable upon application of an electric field thereto; and
a second electrode coupled to said elastomeric material, said second electrode coupled to a surface of said material positioned opposedly to said first electrode, said second electrode comprising an optically reflecting material, at least a part of said second electrode becoming a multiplicity of generally uniform planar regions upon application of a periodic electric field having a repeating sawtooth profile between said first and said second electrode, wherein said planar regions are substantially parallel and inclined at substantially a constant angle to said first electrode after said application of a periodic electric field.
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Abstract
Apparatus and method for modulating quasi-monochromatic electromagnetic radiation utilizing a controllable diffraction grating. A reflection diffraction grating is comprised of a material deformable in the presence of an applied electric field. A first electrode, comprised of a flexible radiation-reflecting material, is applied to the first surface of the deformable material, forming a reflecting surface of the diffraction grating. A second electrode is applied to a second surface of the deformable material. The electrodes are arranged to provide a periodic surface distortion on the reflecting electrode upon application of a voltage between the first and the second electrodes, thereby resulting in a blazed diffraction grating. In addition, the blaze angle of the diffraction grating can be varied as a function of applied voltage, and consequently diffracted radiation pattern can be modulated as a function of the applied voltage. The controllable diffraction grating can modulate the diffracted radiation in a digital or in an analog mode of operation.
217 Citations
11 Claims
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1. A blazed reflection diffraction grating comprising:
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a first electrode coupled to a substrate material; an elastomeric material coupled to said first electrode, said elastomeric material deformable upon application of an electric field thereto; and a second electrode coupled to said elastomeric material, said second electrode coupled to a surface of said material positioned opposedly to said first electrode, said second electrode comprising an optically reflecting material, at least a part of said second electrode becoming a multiplicity of generally uniform planar regions upon application of a periodic electric field having a repeating sawtooth profile between said first and said second electrode, wherein said planar regions are substantially parallel and inclined at substantially a constant angle to said first electrode after said application of a periodic electric field. - View Dependent Claims (2, 3, 4)
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5. A diffraction grating having a controllable blaze angle comprising:
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a material deformable under an applied electric field; a first electrode coupled to a first surface of said deformable material; a second electrode comprised of an optically reflecting material coupled to a second surface of said deformable material;
said first and said second electrode providing a periodic electric field having a repeating sawtooth profile in said deformable material upon application of a potential difference between said first and said second electrode, said periodic electric field providing periodic surface distortions of said second electrode, said surface distortions being related to a magnitude of said applied potential. - View Dependent Claims (6, 7, 8)
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9. A reflection diffraction grating having a variable blaze angle, including
an elastomeric material deformable under the influence of an electric field and disposed in a plane of X-Y orthogonal axes, a first electrode disposed on a first surface of said elastomeric material, a second electrode disposed on a second opposite surface of said elastomeric material, said second electrode including an optically reflective outer surface, said first electrode and said second electrode thus being disposed in face-to-face relationship across said elastomeric material, said first electrode being disposed to address said second electrode by a difference of potential relative to said second electrode which is uniform along x dimensions of said elastomeric material and which varies linearly in a repeating pattern along y dimensions of said elastomeric material to result in a generally saw-tooth voltage profile along said y dimension and a corresponding saw-tooth configuration of said reflective outer surface of said second electrode, and means to vary the voltage impressed on said first and second electrodes to vary the linear relationship of the difference of potential between said first and second electrodes to correspondingly vary the blaze angle of said grating.
Specification