Parallel plate beam splitter configuration in high index glass

US 5,959,773 A
Filed: 08/20/1997
Issued: 09/28/1999
Est. Priority Date: 08/20/1997
Status: Expired due to Term

First Claim

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1. A beam processing system, comprising:

a polarizer that reflects a portion of a beam of radiation having a first polarization along an optical axis, the polarizer including a first thin-film stack sandwiched between first and second transmissive prisms, the first thin-film stack including alternating layers of first and second materials located between two prism interface layers, the first material comprising a material having a high index of refraction, the second material comprising a material having a low index of refraction, the two prism interface layers each having an index of refraction between those of the first and second materials;

a first beam splitter oriented along the optical axis that reflects a first band of the beam of radiation and transmits a second and third band of the beam of radiation; and

a second beam splitter oriented along the optical axis that reflects the second band of the beam of radiation and transmits the third band of the beam of radiation, the second beam splitter being oriented substantially parallel to and in close proximity with the first beam splitter to minimize system size and optical path requirements.

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Abstract

Color and/or polarization beam splitters are used in a multi-color light valve projection systems. The color and/or polarization beam splitters each include first and second prisms with a thin-film stack located therebetween. The prisms are made of glass which has an index of refraction between 1.65 and 1.85. The color and polarization beam splitters operate at an angle of incidence of 45 degrees. By operating at 45 degrees, the color and/or polarization beam splitters can be assembled in a compact and parallel manner and thereby reduce the size of the color and/or polarization beam splitter while increasing the contrast of the light valve projection system. The high index of refraction glass also produces a smaller optical path for a given physical path. The disadvantages associated with index of refraction oil prisms are also eliminated.

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26 Claims

1. A beam processing system, comprising:
- a polarizer that reflects a portion of a beam of radiation having a first polarization along an optical axis, the polarizer including a first thin-film stack sandwiched between first and second transmissive prisms, the first thin-film stack including alternating layers of first and second materials located between two prism interface layers, the first material comprising a material having a high index of refraction, the second material comprising a material having a low index of refraction, the two prism interface layers each having an index of refraction between those of the first and second materials;
  
  a first beam splitter oriented along the optical axis that reflects a first band of the beam of radiation and transmits a second and third band of the beam of radiation; and
  
  a second beam splitter oriented along the optical axis that reflects the second band of the beam of radiation and transmits the third band of the beam of radiation, the second beam splitter being oriented substantially parallel to and in close proximity with the first beam splitter to minimize system size and optical path requirements.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. The system of claim 1, further comprising a prepolarizer that prepolarizes the beam of radiation prior to the beam of radiation reaching the polarizer.
  - 3. The system of claim 2, wherein the prepolarizer is oriented orthogonally with respect to the polarizer such that a portion of the prepolarized beam of radiation having a second polarization is transmitted to the polarizer at an angle of about 90 degrees and is thereby received at the polarizer as a beam of radiation having the first polarization.
  - 4. The system of claim 2, wherein the polarizer includes a thin-film stack, having an incidence angle of about 45°
    - , and being sandwiched between first and second glass prisms having a high index of refraction.
  - 5. The system of claim 1, wherein the first and second prisms are oriented substantially parallel to one another and are formed from a glass material having a high index of refraction.
  - 6. The system of claim 5, wherein the glass material has an index of refraction of between 1.65 and 1.85.
  - 7. The system of claim 6, wherein the glass material has an index of refraction of 1.83.
  - 8. The system of claim 1, wherein the first beam splitter comprises a second thin-film stack sandwiched between the second prism and a third prism.
  - 9. The system of claim 8, wherein the second thin-film stack comprises alternating layers of first and second materials located between two prism interface layers, the first material comprising a material having a high index of refraction, the second material comprising a material having a low index of refraction, the two prism interface layers each having an index of refraction between those of the first and second materials.
  - 10. The system of claim 8, wherein the second and third prisms are oriented substantially parallel to one another and are formed from a glass material having a high index of refraction.
  - 11. The system of claim 10, wherein the glass material has an index of refraction of between 1.65 and 1.85.
  - 12. The system of claim 8, wherein the second beam splitter comprises a third thin-film stack sandwiched between the third prism and a fourth prism.
  - 13. The system of claim 12, wherein the third thin-film stack comprises alternating layers of first and second materials located between two prism interface layers, the first material comprising a material having a high index of refraction, the second material comprising a material having a low index of refraction, the two prism interface layers each having an index of refraction between those of the first and second materials.
  - 14. The system of claim 12, wherein the third and fourth prisms are oriented substantially parallel to one another and formed from a glass material having a high index of refraction.
  - 15. The system of claim 14, wherein the glass material has an index of refraction of between 1.65 and 1.85.
  - 16. The system of claim 1, wherein the first band of radiation comprises blue wavelength spectrum light, the second band of radiation comprises green wavelength spectrum light, and the third band of radiation comprises red wavelength spectrum light.
  - 17. The system of claim 1, further comprising a plurality of light processors that each receive and process radiation reflected or transmitted from the first and second beam splitters and that each output the processed radiation through the first and second beam splitters.
  - 18. The system of claim 17, wherein the plurality of light processors each comprise a light valve positioned in operative proximity to a 1/4 wave plate that each receive light to be processed and that each transmit processed light through the first and second beam splitters and the polarizer.
  - 19. The system of claim 17, wherein the processed radiation comprises both unmodulated and modulated radiation, the polarizer reflecting the unmodulated radiation and transmitting the modulated radiation for radiation projection purposes.

20. A multi-color light valve projection system, comprising:
- a polarizer that receives and reflects a beam of radiation;
  
  first, second and third light valves each operatively positioned to receive a predetermined bandwidth of the radiation;
  
  a first beam splitter that reflects blue wavelength light to a first light valve and transmits red and green wavelength light;
  
  a second beam splitter that reflects green wavelength light to a second light valve that transmits red wavelength light to a third light valve;
  
  the polarizer and first and second beam splitters being oriented substantially parallel to one another and having indices of refraction that minimize reflection of P-polarized light and that maximize reflection of S-polarized light, and the polarizer and first and second beam splitters including a multi-layer film stack having alternating layers of first and second materials located between two prism interface layers, the first material comprising a material having a high index of refraction, the second material comprising a material having a low index of refraction, the two prism interface layers each having an index of refraction between those of the first and second materials.
- View Dependent Claims (21, 22, 26)
- - 21. The processor of claim 20 wherein the polarizer and the first and second beam splitters operate at an incidence angle of about 45°
    - .
  - 22. The system of claim 20 wherein the two prism interface layers each have an index of refraction of between 1.65 and 1.85.
  - 26. The beam processing system of claim 22, wherein the plurality of light processors each comprise a light valve positioned in operative proximity to a 1/4 wave plate that each receive light to be processed and that each transmit processed light through the first and second beam splitters and the polarizer.

23. A light processor, comprising:
- a first beam splitter, oriented along an optical axis at an incidence angle of about 45 degrees, that receives a polarized beam of radiation transmitted along the optical axis, that reflects a first band of the beam of radiation, and that transmits second and third bands of the beam of radiation, the first beam splitter including a first thin-film stack sandwiched between first and second transmissive prisms, the first thin-film stack including alternating layers of first and second materials located between two prism interface layers, the first material comprising a material having a high index of refraction, the second material comprising a material having a low index of refraction, the two prism interface layers each having an index of refraction between those of the first and second materials; and
  
  a second beam splitter, oriented along the optical axis at an incidence angle of about 45 degrees, that reflects the second band of the beam of radiation, and that transmits the third band of the beam of radiation, the second beam splitter being oriented in close proximity with the first beam splitter to minimize system size and optical path length requirements.

24. A beam processing system, comprising:
- a prepolarizer for prepolarizing a beam of radiation;
  
  a polarizer for receiving the beam of radiation and reflecting a portion of the beam of radiation having a first polarization along an optical axis;
  
  a first beam splitter oriented along the optical axis for reflecting a first band of the beam of radiation and transmitting a second and third band of the beam of radiation; and
  
  a second beam splitter oriented along the optical axis for reflecting the second band of the beam of radiation and transmitting the third band of the beam of radiation, the second beam splitter being oriented substantially parallel to and in close proximity with the first beam splitter to minimize system size and optical path requirements;
  
  wherein at least one of the polarizer, the first beam splitter and the second beam splitter include a thin-film stack sandwiched between first and second transmissive prisms, the thin-film stack including alternating layers of first and second materials located between two prism interface layers, the first material comprising a material having a high index of refraction, the second material comprising a material having a low index of refraction, the two prism interface layers each having an index of refraction between those of the first and second materials; and
  
  wherein the prepolarizer is oriented orthogonally with respect to the polarizer such that a portion of the prepolarized beam of radiation having a second polarization is transmitted to the polarizer at an angle of about 90 degrees and is thereby received at the polarizer as a beam of radiation having the first polarization.
- View Dependent Claims (25)
- - 25. The beam processing system of claim 24 further including a plurality of light processors that each receive and process radiation reflected or transmitted from the first and second beam splitters and that each output processed radiation through the first and second beam splitters.

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Current Assignee
JVC Kenwood Corporation
Original Assignee
JVC Americas Corporation (JVC Kenwood Corporation)
Inventors
Gagnon, Ralph J.
Primary Examiner(s)
Nguyen, Thong
Assistant Examiner(s)
Curtis, Craig

Application Number

US08/915,149
Time in Patent Office

769 Days
Field of Search

349/5, 349/8, 349/9, 359/487, 359/495, 359/499, 362/20
US Class Current

359/485.02
CPC Class Codes

G02B 27/145   having sequential partially...

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

H04N 5/7441   the modulator being an arra...

H04N 9/3105   for displaying all colours ...

Parallel plate beam splitter configuration in high index glass

First Claim

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26 Claims

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Parallel plate beam splitter configuration in high index glass

First Claim

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Abstract

Citations

26 Claims

Specification

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Solutions

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