Claims
- 1. An optical quadrature interferometer comprising:
- a light source providing a beam of light;
- a first beamsplitter oriented at an angle with respect to said light source, said first beamsplitter receiving said beam of light and splitting said beam of light into a first secondary light beam and a second secondary light beam;
- a recombining beamsplitter;
- a first reflective element oriented such that said first reflective element receives said first secondary light beam and reflects said first secondary light beam along a different axis to said recombining beamsplitter;
- a second reflective element receiving said secondary light beam and oriented to direct said secondary light beam along a different axis;
- a quarter wave plate receiving said second secondary light beam from said second reflective element, said quarter wave plate providing a 90.degree. phase shift between vertically and horizontally polarized components of the beam resulting in a circularly polarized light beam;
- a target receiving said circularly polarized light beam, said target causing a change to said circularly polarized light beam resulting in a measurement light beam;
- said recombining beamsplitter combining said measurement light beam with said first secondary light beam to provide a first resultant light beam and a second resultant light beam, said first secondary light beam having approximately the same frequency as said beam of light;
- a first polarizing beamsplitter receiving said first resultant light beam and splitting said first resultant light beam into a first secondary resultant light beam and a second secondary resultant light beam;
- a second polarizing beamsplitter receiving said second resultant light beam and splitting said second resultant light beam into a third secondary resultant light beam and a fourth secondary resultant light beam; and
- at least one imaging system for displaying data from said first secondary resultant light beam, said second secondary resultant light beam, said third secondary resultant light beam, and said fourth secondary resultant light beam.
- 2. The optical quadrature interferometer of claim 1 wherein the change to said circularly polarized light beam by said target comprises a phase shift.
- 3. The optical quadrature interferometer of claim 1 wherein the change to said circularly polarized light beam by said target comprises a change in amplitude.
- 4. The optical quadrature interferometer of claim 1 wherein said imaging system comprises a scattering screen followed by a charge coupled device camera and a computer.
- 5. The optical quadrature interferometer of claim 1 wherein said imaging system comprises photographic film and an optical reconstruction system.
- 6. The optical quadrature interferometer of claim 1 wherein said light source comprises a laser.
- 7. The optical quadrature interferometer of claim 1 wherein said light source comprises a light source having a short coherence length.
- 8. The optical quadrature interferometer of claim 6 wherein said light source having a short coherence length is chosen from a group comprising a light emitting diode, a superluminescent diode, a dye laser, a gas discharge lamp, a tungsten filament lamp, and a mercury arc lamp.
- 9. The optical quadrature interferometer of claim 1 wherein said at least one imaging system comprises a first imaging system for displaying data from said first secondary resultant light beam; a second imaging system for displaying data from said second secondary resultant light beam; a third imaging system for displaying data from said third secondary resultant light beam; and a fourth imaging system for displaying data from said fourth secondary resultant light beam.
- 10. An optical quadrature interferometer comprising:
- a light source providing a beam of light;
- a first beamsplitter oriented at an angle with respect to said light source, said first beamsplitter receiving said beam of light and splitting said beam of light into a first secondary light beam and a second secondary light beam;
- a recombining beamsplitter;
- a first reflective element oriented such that said first reflective element receives said first secondary light beam and reflects a portion of said first secondary light beam along a different axis to said recombining beamsplitter;
- a second reflective element receiving said secondary light beam and oriented to direct said secondary light beam along a different axis;
- a quarter wave plate receiving said second secondary light beam from said second reflective element, said quarter wave plate providing a 90.degree. phase shift between vertically and horizontally polarized components of the beam resulting in a circularly polarized light beam;
- a target receiving said a portion of the first secondary light beam not reflected by said first reflective element, said target causing a change to the portion of the first secondary light beam received by said target resulting in a measurement light beam;
- said recombining beamsplitter combining said measurement light beam with said first secondary light beam to provide a first resultant light beam and a second resultant light beam, said first secondary light beam having approximately the same frequency as said beam of light;
- a first polarizing beamsplitter receiving said first resultant light beam and splitting said first resultant light beam into a first secondary resultant light beam and a second secondary resultant light beam;
- a second polarizing beamsplitter receiving said second resultant light beam and splitting said second resultant light beam into a third secondary resultant light beam and a fourth secondary resultant light beam; and
- at least one imaging system for displaying data from said first secondary resultant light beam, said second secondary resultant light beam, said third secondary resultant light beam, and said fourth secondary resultant light beam.
- 11. The optical quadrature interferometer of claim 10 wherein the change to said circularly polarized light beam by said target comprises a phase shift.
- 12. The optical quadrature interferometer of claim 10 wherein the change to said circularly polarized light beam by said target comprises a change in amplitude.
- 13. The optical quadrature interferometer of claim 10 wherein said imaging system comprises a scattering screen followed by a charge coupled device camera and a computer.
- 14. The optical quadrature interferometer of claim 10 wherein said imaging system comprises photographic film and an optical reconstruction system.
- 15. The optical quadrature interferometer of claim 10 wherein said light source comprises a laser.
- 16. The optical quadrature interferometer of claim 10 wherein said light source comprises a light source having a short coherence length.
- 17. The optical quadrature interferometer of claim 16 wherein said light source having a short coherence length is chosen from a group comprising a light emitting diode, a superluminescent diode, a dye laser, a gas discharge lamp, a tungsten filament lamp, and a mercury arc lamp.
- 18. The optical quadrature interferometer of claim 10 wherein said at least one imaging system comprises a first imaging system for displaying data from said first secondary resultant light beam; a second imaging system for displaying data from said second secondary resultant light beam; a third imaging system for displaying data from said third secondary resultant light beam; and a fourth imaging system for displaying data from said fourth secondary resultant light beam.
CROSS REFERENCE TO RELATED APPLICATIONS
This application is a continuation-in-part of U.S. application Ser. No. 08/658,087, filed Jun. 4, 1996 now U.S. Pat. No. 5,883,717 issued Mar. 16, 1999. This application further claims priority under 35 U.S.C. .sctn.119(e) to provisional patent application Ser. No. 60/032,923 filed Dec. 6, 1996; the disclosure of which is incorporated herein by reference.
US Referenced Citations (13)
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
658087 |
Jun 1996 |
|