Transparent flat-panel holographic display
First Claim
1. A flat-panel holographic video display, comprising:
- a control layer, the control layer comprising electrical inputs and configured for controlling drive electronics and light sources; and
a plurality of independently-controlled simultaneously-operable waveguide elements coupled to the control layer, each simultaneously-operable waveguide element comprising;
a light-guiding substrate physically coupled to the control layer and having optical inputs; and
an array of surface acoustic wave transducers arranged along an outer surface of the light-guiding substrate, the array being electrically connected to the control layer and configured to produce a diffraction grating comprising surface acoustic waves, wherein the surface acoustic wave diffraction grating causes the waveguide element to outcouple light bouncing within the substrate and focuses the outcoupled light to one or more points, or produces wavefront curvatures in the light consistent with its having emanated from one or more point sources, in order to form a holographic image,wherein each independently-controlled simultaneously-operable waveguide element is individually independently controlled and driven by dedicated associated electrical inputs from the control layer to the array of transducers, such that light within each waveguide element is independently and differentially diffracted with respect to light within each of the other independently-controlled simultaneously-operable waveguide elements, due to a different diffraction grating produced by the array of transducers because of different inputs received from the associated electrical inputs, and wherein at least some of the independently-controlled simultaneously-operable waveguide elements are operated at the same time as others of the independently-controlled simultaneously-operable waveguide elements.
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Abstract
A flat-panel holographic video display includes a control layer and waveguide elements. Each waveguide element has a light-guiding substrate and an array of transducers configured to produce a diffraction grating comprising surface acoustic waves. The grating causes the waveguide to outcouple light, focusing it to, or producing wavefront curvatures consistent with it having emanated from, one or more points, in order to form a holographic image. The transducer array may include a large number of densely packed, vertically-adjacent transducers for each hogel for full parallax or may include a small number of vertically-adjacent transducers and a cylindrical optical element for each hogel. A spatial filter may be used to block noise. The display may be edge-illuminated by a collinear multicolor source. The substrate exit face may have nanopatterned areas alternated with flat areas in order to create regions of optimal internal reflection next to regions of low reflection.
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Citations
27 Claims
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1. A flat-panel holographic video display, comprising:
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a control layer, the control layer comprising electrical inputs and configured for controlling drive electronics and light sources; and a plurality of independently-controlled simultaneously-operable waveguide elements coupled to the control layer, each simultaneously-operable waveguide element comprising; a light-guiding substrate physically coupled to the control layer and having optical inputs; and an array of surface acoustic wave transducers arranged along an outer surface of the light-guiding substrate, the array being electrically connected to the control layer and configured to produce a diffraction grating comprising surface acoustic waves, wherein the surface acoustic wave diffraction grating causes the waveguide element to outcouple light bouncing within the substrate and focuses the outcoupled light to one or more points, or produces wavefront curvatures in the light consistent with its having emanated from one or more point sources, in order to form a holographic image, wherein each independently-controlled simultaneously-operable waveguide element is individually independently controlled and driven by dedicated associated electrical inputs from the control layer to the array of transducers, such that light within each waveguide element is independently and differentially diffracted with respect to light within each of the other independently-controlled simultaneously-operable waveguide elements, due to a different diffraction grating produced by the array of transducers because of different inputs received from the associated electrical inputs, and wherein at least some of the independently-controlled simultaneously-operable waveguide elements are operated at the same time as others of the independently-controlled simultaneously-operable waveguide elements. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A flat-panel holographic video display, comprising:
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a control layer, the control layer comprising electrical inputs and configured for controlling drive electronics and light sources; and at least one waveguide element coupled to the control layer, each waveguide element comprising; a light-guiding substrate physically coupled to the control layer and having optical inputs, wherein an exit face of the substrate has nanopatterned areas alternated with pristine flat surface areas in order to create regions of optimal internal reflection next to regions of low Fresnel reflection, thereby providing for minimized loss of propagation of confined light and efficient exit of unconfined light; and an array of surface acoustic wave transducers arranged along an outer surface of the light-guiding substrate, the array being electrically connected to the control layer and configured to produce a diffraction grating comprising surface acoustic waves, wherein the surface acoustic wave diffraction grating causes the waveguide element to outcouple light bouncing within the substrate and focuses the outcoupled light to one or more points, or produces wavefront curvatures in the light consistent with its having emanated from one or more point sources, in order to form a holographic image. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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21. A waveguide element for a flat-panel holographic video display, the waveguide element comprising:
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a light-guiding substrate physically coupled to a control layer and having optical inputs, wherein an exit face of the substrate has nanopatterned areas alternated with pristine flat surface areas in order to create regions of optimal internal reflection next to regions of low Fresnel reflection, thereby providing for minimized loss of propagation of confined light and efficient exit of unconfined light; and an array of surface acoustic wave transducers arranged along an outer surface of the light-guiding substrate, the array being electrically connected to the control layer and configured to produce a diffraction grating comprising surface acoustic waves, wherein the surface acoustic wave diffraction grating causes the waveguide element to outcouple light bouncing within the substrate and focuses the outcoupled light to one or more points, or produces wavefront curvatures in the light consistent with its having emanated from one or more point sources, in order to form a holographic image. - View Dependent Claims (22, 23, 24, 25, 26, 27)
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Specification