Passive error compensating device for optical alignment

US 4,170,401 A
Filed: 08/15/1977
Issued: 10/09/1979
Est. Priority Date: 08/15/1977
Status: Expired due to Term

First Claim

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1. A passive compensator for compensating for angular and translational misalignment of a polarized beam comprising, in combination:

a polarizing beam splitter for splitting the beam into two components of substantially equal intensity;

optical orienting means disposed in the path of at least one said component to rotate the wavefront of at least one said component relative to the other said component about two orthogonal axes; and

a polarizing beam combiner for combining said components so that the net rotation of the wavefront of the components with respect to each other by said splitter, said orienting means and said combiner is substantially 180°

about each of said two orthogonal axes.

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Abstract

A passive compensating device which compensates for angular and translational misalignment errors in a polarized beam and assures the projected beam centroid remains at the same position. The device splits the incoming beam into two beams. Thereafter, optical orienting means disposed to intercept the two beams is operative to rotate the wavefront of both beams so that the composite beam exiting a combiner has two components wherein one component has its wavefront rotated 180° about two orthogonal axes with respect to the other beam. Accordingly, the composite beam centroid is maintained at one position regardless of jitter of the beam entering the compensator device.

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15 Claims

1. A passive compensator for compensating for angular and translational misalignment of a polarized beam comprising, in combination:
- a polarizing beam splitter for splitting the beam into two components of substantially equal intensity;
  
  optical orienting means disposed in the path of at least one said component to rotate the wavefront of at least one said component relative to the other said component about two orthogonal axes; and
  
  a polarizing beam combiner for combining said components so that the net rotation of the wavefront of the components with respect to each other by said splitter, said orienting means and said combiner is substantially 180°
  
  about each of said two orthogonal axes.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The compensator of claim 1 wherein said orienting means includes path equalizing means disposed along at least one said component path to make each of the paths followed by said components equal.
  - 3. The compensator of claim 1 wherein said orientation means comprises a unity power image inverting telescope.
  - 4. The compensator of claim 1 wherein said orientation means includes an Amici prism in one path of one component and a penta prism in the other component path.
  - 5. The compensator of claim 1 wherein said orientation means includes a penta prism in each component path.
  - 6. The compensator of claim 1 additionally including a phase plate in the path of each said component so that the composite beam exits said combiner in a direction substantially parallel to the beam entering said splitter.
  - 7. The compensator of claim 1 wherein said splitter, said orienting means and said combiner are cemented together to form a solid mass.

8. A system for compensating for alignment errors introduced into the system by its polarized light source comprising, in combination:
- a polarized light source subject to translational and rotational error in its output beam;
  
  a polarizing beam splitter disposed to intercept said output beam and to divide said output beam into a transmitted component and a reflected component of substantially equal intensity;
  
  optical orienting means disposed to intercept at least one of said transmitted component or said reflected component to rotate the wavefront of the intercepted component about two orthogonal axes;
  
  a polarizing beam combiner disposed to intercept both said components to form a composite beam of both said components where the net rotation of the wavefront of one component with respect to the other component about said two orthogonal axes is 180°
  
  so the centroid of said composite beam remains at one location even when said output beam is subject to rotation and translation due to its normal operation.
- View Dependent Claims (9, 10, 11, 12, 13)
- - 9. The system for compensating for alignment errors of claim 8 additionally including path equalizing means disposed to intercept at least one of either said transmitted component or said reflected component.
  - 10. The system for compensating for alignment errors of claim 8 additionally including a phase plate disposed to intercept said transmitted component and a phase plate disposed to intercept said reflected component prior to entering said combiner, said phase plates providing rotation of the wavefronts of both said transmitted component and said reflected component whereby said composite beam will emerge from said recombiner in a different orientation than for the system without said phase plates.
  - 11. The system of claim 8 wherein said orientation means comprises a unity power image inverting telescope.
  - 12. The system of claim 8 wherein said orientation means includes an Amici prism intercepting one said component and a penta prism intercepting the other said component.
  - 13. The system of claim 8 wherein said orientation means includes a penta prism disposed to intercept each said component.

14. A system permitting determination of precise alignment of one body relative to another comprising, in combination:
- a source of polarized light subject to translational and rotational error in its output beam;
  
  a polarizing beam splitter disposed to intercept said output beam and split it into a transmitted component and a reflected component;
  
  a first 90°
  
  prism and a first penta prism disposed to intercept said reflected component; and
  
  a polarizing beam combiner disposed to intercept said transmitted component after exiting said first penta prism and to intercept said reflected component after exiting said second penta prism, said splitter, said first 90°
  
  prism, said second 90°
  
  prism, said first penta prism, said second penta prism and said combiner being disposed so that the combined beam exiting said combiner has the wavefront of one of its two components rotated by 180°
  
  about two orthogonal axes with respect to the other component so the centroid of said combined beam remains in a fixed location despite translational and rotational displacement of said output beam from said source.
- View Dependent Claims (15)
- - 15. The system of claim 14 wherein said polarizing beam splitter is positioned with respect to said output beam so that said transmitted component and said reflected component are of substantially equal intensity.

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Current Assignee
Perkinelmer Incorporated
Original Assignee
Perkinelmer Incorporated
Inventors
Yoder, Paul R. Jr., Crane, Robert Jr., Schlesinger, Eugene R.
Primary Examiner(s)
Corbin, John K.
Assistant Examiner(s)
Punter, Wm. H.

Application Number

US05/824,529
Time in Patent Office

785 Days
Field of Search

356/138, 356/153, 356/150-151, 350/172-174, 350/152
US Class Current

359/485.06
CPC Class Codes

G01B 11/26   for measuring angles or tap...

G02B 27/144   using partially transparent...

G02B 27/283   used for beam splitting or ...

Passive error compensating device for optical alignment

First Claim

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Abstract

47 Citations

15 Claims

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Passive error compensating device for optical alignment

First Claim

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Accused Products

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Abstract

47 Citations

15 Claims

Specification

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Solutions

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