SYSTEMS, DEVICES, AND METHODS FOR SPATIALLY-MULTIPLEXED HOLOGRAPHIC OPTICAL ELEMENTS

US 20170212349A1
Filed: 05/03/2016
Published: 07/27/2017
Est. Priority Date: 05/04/2015
Status: Active Grant

First Claim

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1. A spatially-multiplexed holographic optical element (“

HOE”

) for use in a display having multiple exit pupils, wherein the spatially-multiplexed HOE includes at least one layer of holographic material and that at least one layer of holographic material comprises;

a first holographic region to receive light from a light source, apply a first optical function thereto, and direct the light towards a first exit pupil with the first optical function applied thereto; and

a second holographic region to receive light from the light source, apply a second optical function thereto, and direct the light towards a second exit pupil with the second optical function applied thereto, wherein;

the second holographic region is spatially-separated from the first holographic region; and

the second exit pupil is spatially-separated from the first exit pupil.

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Abstract

Systems, devices, and methods for spatial multiplexing in holographic optical elements (“HOEs”) are described. A spatially-multiplexed HOE includes multiple spatially-separated holographic regions and each spatially-separated region applies a respective optical function to light that is incident thereon. An exemplary application as a spatially-multiplexed holographic combiner (“SMHC”) in a scanning laser-based wearable heads-up display (“WHUD”) is described. In this exemplary application, a scanning laser projector directs multiple light signals over the area of the SMHC and the SMHC converges the light signals towards multiple spatially-separated exit pupils at or proximate the eye of the user. The particular exit pupil at the eye of the user towards which any particular light signal is converged by the SMHC depends on the particular region of the SMHC upon which the light signal is incident. Such may be useful in engineering particular eyebox and/or user interface display configurations in the operation of the WHUD.

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21 Claims

1. A spatially-multiplexed holographic optical element (“
- HOE”
  
  ) for use in a display having multiple exit pupils, wherein the spatially-multiplexed HOE includes at least one layer of holographic material and that at least one layer of holographic material comprises;
  
  a first holographic region to receive light from a light source, apply a first optical function thereto, and direct the light towards a first exit pupil with the first optical function applied thereto; and
  
  a second holographic region to receive light from the light source, apply a second optical function thereto, and direct the light towards a second exit pupil with the second optical function applied thereto, wherein;
  
  the second holographic region is spatially-separated from the first holographic region; and
  
  the second exit pupil is spatially-separated from the first exit pupil.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The spatially-multiplexed HOE of claim 1 wherein the first optical function converges the light towards the first exit pupil and the second optical function converges the light towards the second exit pupil.
  - 3. The spatially-multiplexed HOE of claim 2 wherein the first optical function converges the light towards the first exit pupil with a first rate of convergence and the second optical function converges the light towards the second exit pupil with a second rate of convergence, the second rate of convergence different from the first rate of convergence.
  - 4. The spatially-multiplexed HOE of claim 1 wherein both the first optical function and the second optical function reflect the light from the light source.
  - 5. The spatially-multiplexed HOE of claim 1 wherein the first optical function converges the light towards the first exit pupil and the second optical function diverges the light towards the second exit pupil.
  - 6. The spatially-multiplexed HOE of claim 1 wherein the first holographic region includes a first hologram and the second holographic region includes a second hologram.
  - 7. The spatially-multiplexed HOE of claim 6 wherein the at least one layer of holographic material comprises a first continuous piece of holographic material that includes both the first holographic region and the second holographic region, and wherein the first hologram is in the first holographic region of the first continuous piece of holographic material and the second hologram is in the second holographic region of the first continuous piece of holographic material.
  - 8. The spatially-multiplexed HOE of claim 6 wherein the at least one layer of holographic material comprises:
    - a first piece of holographic material that includes the first holographic region and wherein the first hologram is in the first holographic region of the first piece of holographic material; and
      
      a second piece of holographic material that includes the second holographic region and wherein the second hologram is in the second holographic region of the second piece of holographic material.
  - 9. The spatially-multiplexed HOE of claim 8, further comprising a substrate layer that carries both the first piece of holographic material and the second piece of holographic material.
  - 10. The spatially-multiplexed HOE of claim 1 wherein the at least one layer of holographic material includes a holographic material selected from a group consisting of:
    - a holographic film, a silver halide compound, and a photopolymer.
  - 11. The spatially-multiplexed HOE of claim 1 wherein the at least one layer of holographic material further comprises:
    - at least one additional holographic region to receive light from the light source, each additional holographic region to apply a respective optical function to light received from the light source and direct the light towards a respective exit pupil, wherein;
      
      each additional holographic region is spatially-separated from the other holographic regions; and
      
      each exit pupil is spatially-separated from the other exit pupils.
  - 12. The spatially-multiplexed HOE of claim 1 wherein the first holographic region and the second holographic region are both substantially transparent to visible light having a wavelength that is not a wavelength of light provided by the light source.

13. A wearable heads-up display (“
- WHUD”
  
  ) comprising;
  
  a support structure that in use is worn on a head of a user;
  
  a scanning laser projector carried by the support structure; and
  
  a spatially-multiplexed holographic combiner carried by the support structure, wherein the spatially-multiplexed holographic combiner is positioned within a field of view of an eye of the user when the support structure is worn on the head of the user, and wherein the spatially-multiplexed holographic combiner comprises at least one layer of holographic material, the at least one layer of holographic material including;
  
  a first holographic region positioned and oriented to receive a first range of light signals from the scanning laser projector and to converge the first range of light signals to a first exit pupil at or proximate the eye of the user; and
  
  a second holographic region positioned and oriented to receive a second range of light signals from the scanning laser projector and to converge the second range of light signals to a second exit pupil at or proximate the eye of the user, wherein the second holographic region is spatially-separated from the first holographic region at the spatially-multiplexed holographic combiner and the second exit pupil is spatially-separated from the first exit pupil at the eye of the user.
- View Dependent Claims (14, 15, 16, 17, 18)
- - 14. The WHUD of claim 13 wherein the support structure has a general shape and appearance of an eyeglasses frame, and wherein the spatially-multiplexed holographic combiner further comprises an eyeglass lens that carries the at least one layer of holographic material.
  - 15. The WHUD of claim 13 wherein the first holographic region of the spatially-multiplexed holographic combiner includes a first hologram and the second holographic region of the spatially-multiplexed holographic combiner includes a second hologram.
  - 16. The WHUD of claim 15 wherein the at least one layer of holographic material in the spatially-multiplexed holographic combiner comprises a first continuous piece of holographic material that includes both the first holographic region and the second holographic region, and wherein the first hologram is in the first holographic region of the first continuous piece of holographic material and the second hologram is in the second holographic region of the first continuous piece of holographic material.
  - 17. The WHUD of claim 15 wherein the at least one layer of holographic material in the spatially-multiplexed holographic combiner comprises:
    - a first piece of holographic material that includes the first holographic region, wherein the first hologram is in the first holographic region of the first piece of holographic material; and
      
      a second piece of holographic material that includes the second holographic region, wherein the second hologram is in the second holographic region of the second piece of holographic material.
  - 18. The WHUD of claim 13 wherein the at least one layer of holographic material in the spatially-multiplexed holographic combiner further includes:
    - at least one additional holographic region, each additional holographic region positioned and oriented to receive a respective range of light signals from the scanning laser projector and to converge the respective range of light signals to a respective exit pupil at or proximate the eye of the user, wherein each additional holographic region is spatially-separated from the other holographic regions at the spatially-multiplexed holographic combiner and each respective exit pupil is spatially-separated from the other exit pupils at the eye of the user.

19. A method of operating a wearable heads-up display (“
- WHUD”
  
  ), the WHUD including a scanning laser projector and a spatially-multiplexed holographic combiner positioned within a field of view of an eye of a user when the WHUD is worn on a head of the user, the method comprising;
  
  directing a first light signal towards a first region of the spatially-multiplexed holographic combiner by the scanning laser projector;
  
  redirecting, by the first region of the spatially-multiplexed holographic combiner, the first light signal towards a first exit pupil at or proximate the eye of the user;
  
  directing a second light signal towards a second region of the spatially-multiplexed holographic combiner by the scanning laser projector, the second region of the spatially-multiplexed holographic combiner spatially separated from the first region of the spatially-multiplexed holographic combiner at the spatially-multiplexed holographic combiner; and
  
  redirecting, by the second region of the spatially-multiplexed holographic combiner, the second light signal towards a second exit pupil at or proximate the eye of the user, the second exit pupil spatially-separated from the first exit pupil at the eye of the user.
- View Dependent Claims (20, 21)
- - 20. The method of claim 19 wherein:
    - redirecting, by the first region of the spatially-multiplexed holographic combiner, the first light signal towards a first exit pupil at or proximate the eye of the user includes converging, by the first region of the spatially-multiplexed holographic combiner, the first light signal towards the first exit pupil at or proximate the eye of the user; and
      
      redirecting, by the second region of the spatially-multiplexed holographic combiner, the second light signal towards a second exit pupil at or proximate the eye of the user includes converging, by the second region of the spatially-multiplexed holographic combiner, the second light signal towards the second exit pupil at or proximate the eye of the user.
  - 21. The method of claim 19, further comprising:
    - directing at least one additional light signal towards the spatially-multiplexed holographic combiner by the scanning laser projector, each additional light signal being directed towards a respective spatially-separated region of the spatially-multiplexed holographic combiner by the scanning laser projector; and
      
      redirecting, by each respective spatially-separated region of the spatially-multiplexed holographic combiner, each additional light signal towards a respective a respective spatially-separated exit pupil at or proximate the eye of the user.

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Current Assignee
Google LLC (Alphabet Inc.)
Original Assignee
Thalmic Labs Inc.
Inventors
Morrison, Vance R., Holland, Lloyd Frederick, Choi, Jaehong, Bailey, Matthew, Alexander, Stefan, Mahon, Thomas

Granted Patent

US 10,175,488 B2
Time in Patent Office

Days
Field of Search
US Class Current
CPC Class Codes

G02B 2027/0123   comprising devices increasi...

G02B 2027/0125   Field-of-view increase by w...

G02B 2027/015   involving arrangement aimin...

G02B 2027/0174   holographic

G02B 2027/0178   Eyeglass type eyeglass deta...

G02B 26/10   Scanning systems

G02B 27/017   Head mounted

G02B 27/0172   characterised by optical fe...

G02B 27/0176   characterised by mechanical...

G02B 5/1876   Diffractive Fresnel lenses;...

G02B 5/32   Holograms used as optical e...

G03H 1/0252   Laminate comprising a holog...

G03H 1/2286   Particular reconstruction l...

G03H 1/2645   Multiplexing processes, e.g...

G03H 1/265   Angle multiplexing; Multich...

G03H 2001/2292   Using scanning means

G03H 2001/266   Wavelength multiplexing

SYSTEMS, DEVICES, AND METHODS FOR SPATIALLY-MULTIPLEXED HOLOGRAPHIC OPTICAL ELEMENTS

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

66 Citations

21 Claims

Specification

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SYSTEMS, DEVICES, AND METHODS FOR SPATIALLY-MULTIPLEXED HOLOGRAPHIC OPTICAL ELEMENTS

First Claim

3 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

66 Citations

21 Claims

Specification

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Solutions

Use Cases

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