Optical correlator using light phase modulation and two reflective spatial light modulators
First Claim
1. An optical signal processor operable to receive coherent light from a coherent light source, said optical signal processor comprising:
- a. an optical transmissive/reflective element that is operable to receive said coherent light from said coherent light source and to substantially reflect said coherent light;
b. a first spatial light modulator operable to receive said coherent light from said transmissive/reflective element and to modulate an input image onto said coherent light to form a modulated light signal comprising said input image modulated upon said coherent light, said first spatial light modulator further operable to direct said light signal toward said transmissive reflective element, which allows a substantial amount of said modulated light signal to pass through it;
c. a first transformer operable to receive said modulated light signal and to perform a first domain transformation thereupon;
d. a second spatial light modulator operable to receive said transformed, modulated light signal and to modulate a filter image thereupon to form a filtered/transformed signal, said second spatial light modulator comprisingi. a first modulating element switchable between at least two discrete, addressable states;
ii. a second modulating element, switchable between at least two discrete, addressable states, said second modulating element being adjacent to said first modulating element and formed such that said second modulating element will effect a phase difference between light incident thereon and light incident on and acted upon by said first modulating element, the responses from said first and second modulating elements being combinable into a single response having a phase state that is one of a plurality of discrete phase states that are dependent upon the addressed states of said first and second modulating elements; and
e. a second transformer operable to receive said filtered/transformed signal and to perform a second domain transformation thereupon, said second domain transformation being the inverse of said first domain transformation, resulting in an output correlation signal.
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Accused Products
Abstract
An optical signal processor which employs a coherent light source, two spatial light modulators and a beam splitter. Light is from the source is reflected from the beam splitter and sent to a first spatial light modulator, then sent through the beam splitter, a Fourier transform is performed and the transformed light is then reflected from the second spacial light modulator. The light form the second spacial light modulator is then inverse transformed and returned to the beam splitter where it is reflected to a readout detector. The signal read out is the correlation map between an input image from the first modulator and a filter image of the second modulator.
70 Citations
12 Claims
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1. An optical signal processor operable to receive coherent light from a coherent light source, said optical signal processor comprising:
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a. an optical transmissive/reflective element that is operable to receive said coherent light from said coherent light source and to substantially reflect said coherent light; b. a first spatial light modulator operable to receive said coherent light from said transmissive/reflective element and to modulate an input image onto said coherent light to form a modulated light signal comprising said input image modulated upon said coherent light, said first spatial light modulator further operable to direct said light signal toward said transmissive reflective element, which allows a substantial amount of said modulated light signal to pass through it; c. a first transformer operable to receive said modulated light signal and to perform a first domain transformation thereupon; d. a second spatial light modulator operable to receive said transformed, modulated light signal and to modulate a filter image thereupon to form a filtered/transformed signal, said second spatial light modulator comprising i. a first modulating element switchable between at least two discrete, addressable states; ii. a second modulating element, switchable between at least two discrete, addressable states, said second modulating element being adjacent to said first modulating element and formed such that said second modulating element will effect a phase difference between light incident thereon and light incident on and acted upon by said first modulating element, the responses from said first and second modulating elements being combinable into a single response having a phase state that is one of a plurality of discrete phase states that are dependent upon the addressed states of said first and second modulating elements; and e. a second transformer operable to receive said filtered/transformed signal and to perform a second domain transformation thereupon, said second domain transformation being the inverse of said first domain transformation, resulting in an output correlation signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An optical signal processor operable to receive coherent light from a coherent light source, said optical signal processor comprising:
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a. an optical transmissive/reflective element that is operable to receive said coherent light from said coherent light source and to substantially reflect said coherent light; b. a first deformable mirror device operable to receive said coherent light from said transmissive/reflective element and to modulate an input image onto said coherent light to form a modulated light signal comprising said input image modulated upon said coherent light, said first spatial light modulator further operable to direct said light signal toward said transmissive reflective element, which allows a substantial amount of said modulated light signal to pass through it; c. a first lens operable to receive said modulated light signal and to perform a first domain transformation thereupon; d. a second deformable mirror device operable to receive said transformed, modulated light signal and to modulate a filter image thereupon to form a filtered/transformed signal, said second deformable mirror device comprising i. a first deformable mirror switchable between at least two discrete, addressable states; ii. a second deformable mirror switchable between at least two discrete, addressable states, said second deformable mirror being adjacent to said first deformable mirror and formed such that said second deformable mirror will effect a phase difference between light incident thereon and light incident on and acted upon by said first deformable mirror, the responses from said first and second deformable mirrors being combinable into a single response having a phase state that is one of a plurality of discrete phase states that are dependent upon the addressed states of said first and second deformable mirrors; and e. a second lens operable to receive said filtered/transformed signal and to perform a second domain transformation thereupon, said second domain transformation being the inverse of said first domain transformation, resulting in an output correlation signal. - View Dependent Claims (9, 10, 11, 12)
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Specification