Optical beam homogenizing apparatus and method

US 5,548,444 A
Filed: 07/06/1994
Issued: 08/20/1996
Est. Priority Date: 07/06/1994
Status: Expired due to Term

First Claim

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1. An optical beam homogenizer comprising:

an entrance pupil through which an optical beam propagates;

a first optical component having a plurality of flat surfaces for splitting the optical beam into a plurality of beamlets, each beamlet containing light from a respective segment of the entrance pupil; and

a second optical component for receiving the beamlets and forming an image of each segment of the entrance pupil at an image plane, the second optical component directing the beamlets such that images of segments of the entrance pupil are superimposed upon each other at the image plane.

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Abstract

An optical beam homogenizer includes an entrance pupil through which a non-uniform optical beam propagates. A first optical component having plural flat surfaces receives the input beam. The flat surfaces of the first optical component effectively segment the entrance pupil by dividing the input beam into plural beamlets, one beamlet for each pupil segment and flat surface. The beamlets are received by a second optical component which also has multiple flat surfaces, each flat surface receiving a beamlet. The second optical component directs the beamlets toward each other such that they overlap at an exit pupil of the system. The second optical component also focuses the beamlets such that an image of each entrance pupil segment is formed at the exit pupil. The images of the individual entrance pupil segments are superimposed upon each other at the exit pupil to form a uniform optical output beam.

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30 Claims

1. An optical beam homogenizer comprising:
- an entrance pupil through which an optical beam propagates;
  
  a first optical component having a plurality of flat surfaces for splitting the optical beam into a plurality of beamlets, each beamlet containing light from a respective segment of the entrance pupil; and
  
  a second optical component for receiving the beamlets and forming an image of each segment of the entrance pupil at an image plane, the second optical component directing the beamlets such that images of segments of the entrance pupil are superimposed upon each other at the image plane.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 2. The optical beam homogenizer of claim 1 wherein the second optical component directs the beamlets toward each other to produce a single uniform output beam.
  - 3. The optical beam homogenizer of claim 1 wherein the second optical component directs the beamlets such that a plurality of uniform output beams are produced.
  - 4. The optical beam homogenizer of claim 1 wherein the first optical component is a monolithic optical element.
  - 5. The optical beam homogenizer of claim 1 wherein the first optical component comprises a multiple-piece optical element.
  - 6. The optical beam homogenizer of claim 1 wherein the first optical component comprises a plurality of optical elements.
  - 7. The optical beam homogenizer of claim 1 wherein the first optical component comprises a prism.
  - 8. The optical beam homogenizer of claim 1 wherein the first optical component comprises a pyramidal prism.
  - 9. The optical beam homogenizer of claim 1 wherein the first optical component comprises a plate prism.
  - 10. The optical beam homogenizer of claim 1 wherein the first optical component comprises a prism/lens.
  - 11. The optical beam homogenizer of claim 1 wherein the first optical component comprises a lens.
  - 12. The optical beam homogenizer of claim 1 wherein the first optical component comprises a mirror.
  - 13. The optical beam homogenizer of claim 1 wherein the first and second optical components comprise positive-angle optics.
  - 14. The optical beam homogenizer of claim 1 wherein the first optical component comprises positive-angle optics.
  - 15. The optical beam homogenizer of claim 1 wherein the second optical component comprises positive-angle optics.
  - 16. The optical beam homogenizer of claim 1 wherein the optical beam is a laser beam.
  - 17. The optical beam homogenizer of claim 1 wherein each of the beamlets propagates along a longitudinal axis, all of the longitudinal axes crossing between the first optical component and the second optical component.
  - 18. The optical beam homogenizer of claim 1 wherein the second optical component is a monolithic optical element.
  - 19. The optical beam homogenizer of claim 1 wherein the second optical component comprises a multiple-piece optical element.
  - 20. The optical beam homogenizer of claim 1 wherein the second optical component comprises a plurality of optical elements.
  - 21. The optical beam homogenizer of claim 1 wherein the second optical component comprises a prism.
  - 22. The optical beam homogenizer of claim 1 wherein the second optical component comprises a pyramidal prism.
  - 23. The optical beam homogenizer of claim 1 wherein the second optical component comprises a prism/lens.
  - 24. The optical beam homogenizer of claim 1 wherein the second optical component comprises a lens.

25. A method of homogenizing an optical beam comprising:
- allowing the optical beam to propagate through an entrance pupil;
  
  providing a first optical component for receiving the optical beam from the entrance pupil;
  
  splitting the optical beam into a plurality of beamlets with a plurality of flat surfaces on the first optical component, each beamlet containing light from a respective segment of the entrance pupil;
  
  with a second optical component, forming an image of each segment of the entrance pupil at an image plane; and
  
  with the second optical component, directing the beamlets such that images of entrance pupil segments are superimposed upon each other at the image plane.
- View Dependent Claims (26, 27, 28)
- - 26. The method of claim 25 further comprising the step of, with the first optical component, directing the beamlets toward each other such that they cross between the first optical component and the second optical component.
  - 27. The method of claim 25 wherein the second optical component directs the beamlets toward each other to produce a single uniform output beam.
  - 28. The method of claim 25 wherein the second optical component directs the beamlets such that a plurality of uniform output beams are produced.

29. An optical beam homogenizer comprising:
- an entrance pupil through which an optical beam propagates;
  
  a first optical component having a plurality of flat surfaces for splitting the optical beam into a plurality of beamlets, each beamlet containing light from a respective segment of the entrance pupil and propagating along a longitudinal axis; and
  
  a second optical component for receiving the beamlets and forming an image of each segment of the entrance pupil at an image plane, the longitudinal axes of the beamlets crossing between the first optical component and the second optical component and the second optical component directing the beamlets such that images of segments of the entrance pupil are superimposed upon each other at the image plane.

30. A method of homogenizing an optical beam comprising:
- allowing the optical beam to propagate through an entrance pupil;
  
  providing a first optical component for receiving the optical beam from the entrance pupil;
  
  splitting the optical beam into a plurality of beamlets with a plurality of flat surfaces on the first optical component, each beamlet containing light from a respective segment of the entrance pupil;
  
  with a second optical component, forming an image of each segment of the entrance pupil at an image plane, the first optical component directing the beamlets toward each other such that they cross between the first optical component and the second optical component; and
  
  with the second optical component, directing the beamlets such that images of entrance pupil segments are superimposed upon each other at the image plane.

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Current Assignee
Goodrich Corporation (Raytheon Technologies Corporation d/b/a RTX)
Original Assignee
Hughes Danbury Optical Systems Incorporated
Inventors
Fernald, Mark R., Harte, Kenneth J., McLaughlin, Joseph L.
Primary Examiner(s)
Epps, Georgia Y.
Assistant Examiner(s)
MACK, RICKY LEVERN

Application Number

US08/271,029
Time in Patent Office

776 Days
Field of Search

359/639, 359/640, 359/737, 359/738, 359/739, 359/740, 359/837, 359/618
US Class Current

359/629
CPC Class Codes

G02B 27/09   Beam shaping, e.g. changing...

G02B 27/0905   Dividing and/or superposing...

G02B 27/0972   Prisms prisms per se G02B5/04

Optical beam homogenizing apparatus and method

First Claim

5 Assignments

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Abstract

40 Citations

30 Claims

Specification

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Optical beam homogenizing apparatus and method

First Claim

5 Assignments

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0 Petitions

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Abstract

40 Citations

30 Claims

Specification

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Solutions

Use Cases

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