System and method for using a holographic optical element in a wireless telecommunication system receiver
First Claim
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1. An optical wireless telecommunications system receiver, comprising:
- a holographic optical element (HOE) device including;
a first element having first and second surfaces, the first surface being positionable to receive incident light comprising an optical signal having data modulated thereon transmitted from a remote optical transmitter, an emulsion material disposed on the second surface of the first element and having a recorded interference pattern to diffract portions of received light having said one or more predetermined wavelengths;
a second element having a first surface disposed on the emulsion material, the second element being structured to pass resulting light, derived from the incident light diffracted by the recorded interference pattern, in a direction toward a location facing a second surface of the second element; and
an optical processing unit including a detector positioned to receive the resulting light and electronics to demodulate an output of the detector to extract the data modulated thereon.
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Abstract
A holographic optical element (HOE) device is mounted in a receiver unit, such as a wireless optical telecommunication system receiver. The HOE device includes a developed emulsion material having an interference pattern recorded thereon, sandwiched between a pair of elements, such as a pair of clear glass plates. In operation, the HOE device uses the recorded interference pattern to diffract incident light rays towards an optical processing unit of the system receiver. The optical processing unit includes a photodetector that detects the diffracted light rays. The system receiver can include various other components and/or can have various configurations. In one configuration, a plurality of mirrors is used to control the direction of the light rays coming from the HOE device, and a collimating optical assembly collimates these light rays. A beam splitting optical assembly can be used to split the light rays into a tracking channel and a communication channel.
25 Citations
31 Claims
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1. An optical wireless telecommunications system receiver, comprising:
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a holographic optical element (HOE) device including;
a first element having first and second surfaces, the first surface being positionable to receive incident light comprising an optical signal having data modulated thereon transmitted from a remote optical transmitter, an emulsion material disposed on the second surface of the first element and having a recorded interference pattern to diffract portions of received light having said one or more predetermined wavelengths;
a second element having a first surface disposed on the emulsion material, the second element being structured to pass resulting light, derived from the incident light diffracted by the recorded interference pattern, in a direction toward a location facing a second surface of the second element; and
an optical processing unit including a detector positioned to receive the resulting light and electronics to demodulate an output of the detector to extract the data modulated thereon. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
an optical detector; and
a beam splitter to direct a first portion of the resulting light associated with a tracking operation towards the optical detector and to direct a second portion of the resulting light having data modulated thereon towards the optical processing unit.
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8. The system of claim 1, further comprising:
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a collimating optical assembly positionable between the HOE device and the optical processing unit to collimate the resulting light; and
an optical element positionable between the collimating optical assembly and the optical processing unit to separate, from the collimated resulting light, a tracking channel and a communication channel, and to direct the communication channel towards the optical processing unit.
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9. The system of claim 8 wherein the optical element comprises a beam splitting optical assembly.
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10. The system of claim 8 wherein the collimating optical assembly includes a refocusing element to longitudinally refocus the collimated resulting light.
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11. The system of claim 8 wherein the optical processing unit includes a PIN detector or a photodiode to convert the received resulting light into electronic signals.
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12. The system of claim 1 wherein the recorded interference pattern comprises a volume phase hologram.
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13. The system of claim 1 wherein the emulsion material comprises a photopolymer material.
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14. The system of claim 1, wherein the second surface of the first element and the first surface of the second element are smooth.
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15. An apparatus, comprising:
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a holographic optical element (HOE) device disposed in a receiver unit of an optical wireless telecommunications system designed to receive an optical signal having a data stream modulated thereon from an optical transmitter, the HOE device including a recorded interference pattern on an emulsion material designed to diffract light at one or more predetermined wavelengths corresponding to the optical signal, the HOE device being positionable to face incident light and to pass a portion of the incident light having said one or more predetermined wavelengths as resulting light diffracted by the recorded interference pattern, said apparatus further including electronics for extracting the data stream from the resulting light. - View Dependent Claims (16, 17, 18, 19, 20)
an optical processing unit to receive the resulting light; and
a plurality of mirrors between the optical processing unit and the HOE device to control a direction of the resulting light from the HOE device to the optical processing unit.
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18. The apparatus of claim 15, further comprising:
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a collimating optical assembly positionable between the HOE device and an optical processing unit to collimate the resulting light; and
an optical element positionable between the collimating optical assembly and the optical processing unit to separate, from the collimated resulting light, a tracking channel and a communication channel, and to direct the communication channel towards the optical processing unit.
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19. The apparatus of claim 18, further comprising a beam splitter positionable to receive the collimated resulting light from the collimating optical assembly and to split the collimated resulting light into a plurality of communication channels.
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20. The apparatus of claim 15 wherein the HOE device comprises a pair of glass elements sandwiching a developed emulsion material, the developed emulsion material including the recorded interference pattern.
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21. A method, comprising:
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positioning a holographic optical element (HOE) having an interference pattern recorded on an emulsion material to receive an optical signal having a data stream modulated thereon from an optical transmitter;
using the recorded interference pattern in the HOE device to diffract light having a wavelength corresponding to the optical signal; and
detecting the diffracted light and obtaining data corresponding to the data stream. - View Dependent Claims (22, 23, 24, 25)
collimating the resulting light; and
splitting the collimated light into a communication channel and a tracking channel.
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24. The method of claim 21, further comprising:
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using a beam splitter to direct a portion of the resulting light associated with tracking to an optical detector for tracking; and
using the beam splitter to direct another portion of the resulting light associated with communication data to an optical processing unit.
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25. The method of claim 21, wherein the recorded interference pattern disposed on an emulsion material between a pair of elements, the pair of elements having smooth surfaces.
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26. A method, comprising:
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recording an interference pattern on an emulsion material;
placing the emulsion material between a pair of elements to form a holographic optical element (HOE) device; and
mounting the HOE device in a receiver unit of an optical wireless telecommunications system to receive and demodulate data modulated on a light signal sent from an optical transmitter located remotely from the receiver unit. - View Dependent Claims (27, 28, 29, 30, 31)
splitting a light into first and second paths;
expanding light from the first path from a first point towards the emulsion material;
expanding light from the second path from a second point towards the emulsion material; and
obtaining the interference pattern at the emulsion material from an interference of the lights expanded from the first and second points.
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29. The method of claim 26, further comprising mounting a plurality of mirrors in the receiver unit to control a direction of light passing through the HOE device.
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30. The method of claim 26 wherein the pair of elements is made from a plastic material.
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31. The method of claim 26, wherein the pair of elements having smooth surfaces.
Specification
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Current AssigneeOL Security LLC (Intellectual Ventures LLC)
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Original AssigneeTerabeam Corporation (Proxim Wireless Corporation)
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InventorsPratt, Mark, Brown, Harold A., Schuster, John J., Rallison, Richard D., Amadon, Charles Gregory
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Primary Examiner(s)Juba, John
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Assistant Examiner(s)ASSAF, FAYEZ G
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Application NumberUS09/627,815Time in Patent Office1,117 DaysField of Search359/15, 359/16, 359/19, 359/152, 359/159, 359/163, 385/24US Class Current359/15CPC Class CodesG02B 5/32 Holograms used as optical e...
