Tunable diffractive subtractive filter
First Claim
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1. A tunable diffractive subtractive color filter comprising a solid diffractive phase medium including a fixed, predetermined waveform profile surface relief pattern, an adjustable index-of-refraction, optically-transparent, fluid medium in which said surface relief pattern is immersed, and control means for selectively controlling the index of refraction of said fluid medium;
- wherein said selectively controllable index of refraction of said fluid medium is within a continuous range of indices of refraction that extend from a certain maximum index of refraction to a certain minimum index of refraction, and said medium is a transmissive medium having a given index of refraction which is equal to or greater than said certain maximum or is equal to or less than said certain minimum,wherein said predetermined waveform profile is a rectangular waveform profile having a given physical amplitude and a given aspect ratio, andwherein said given physical amplitude is substantially equal to 260 nanometers divided by the difference between said certain maximum and said certain minimum indices of refraction.
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Abstract
A diffractive subtractive filter is made tunable by controllably varying the index of refraction of a fluid medium in contact with a surface relief pattern of a solid diffractive phase medium. A liquid crystal is the preferred fluid.
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2 Claims
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1. A tunable diffractive subtractive color filter comprising a solid diffractive phase medium including a fixed, predetermined waveform profile surface relief pattern, an adjustable index-of-refraction, optically-transparent, fluid medium in which said surface relief pattern is immersed, and control means for selectively controlling the index of refraction of said fluid medium;
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wherein said selectively controllable index of refraction of said fluid medium is within a continuous range of indices of refraction that extend from a certain maximum index of refraction to a certain minimum index of refraction, and said medium is a transmissive medium having a given index of refraction which is equal to or greater than said certain maximum or is equal to or less than said certain minimum, wherein said predetermined waveform profile is a rectangular waveform profile having a given physical amplitude and a given aspect ratio, and wherein said given physical amplitude is substantially equal to 260 nanometers divided by the difference between said certain maximum and said certain minimum indices of refraction.
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2. A tunable diffractive subtractive color filter comprising a solid diffractive phase medium including a fixed, predetermined waveform profile surface relief pattern, an adjustable index-of-refraction, optically-transparent, fluid medium in which said surface relief pattern is immersed, and control means for selectively controlling the index of refraction of said fluid medium;
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wherein said selectively controllable index of refraction of said fluid medium is within a continuous range of indices of refraction that extend from a certain maximum index of refraction to a certain minimum index of refraction, and said medium is a transmissive medium having a given index of refraction which is equal to or greater than said certain maximum or is equal to or less than said certain minimum, wherein said predetermined waveform profile is a rectangular waveform profile having a given physical amplitude and a given aspect ratio, wherein said fluid comprises a liquid crystal material which exhibits an index of refraction that is a function of an applied electric field and wherein said control means includes means for controllably applying an electric field to said fluid in the vicinity of said pattern, wherein said means for controllably applying said electric field comprises means for applying a binary field having a first state and a second state, and wherein said liquid crystal has said certain maximum index of refraction when said electric field has said first state and has said certain minimum index of refraction when said electric field has said second state, wherein said given index-of-refraction is substantially equal to a particular one of said certain maximum and minimum indices of refraction, and wherein the product of said given physical amplitude and the absolute value of the difference between said given index-of-refraction and the other one of said certain maximum and minimum indices of refraction is substantially equal to 280 nanometers.
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Specification