Claims
- 1. An R,G,B laser light source with reduced speckle noise adapted for use with a display system, which light source generates R, G and B beams and comprises:
a laser with a laser medium producing a laser output beam with a plurality of output beam wavelengths; an R-channel receiving a first portion of the output beam at a first output beam wavelength and generating the R beam, with the R-channel including a resonant cavity with a first nonlinear crystal producing optical radiation having a first wavelength that is greater than the first output beam wavelength and a spectral width that is greater than a spectral width of the first output beam wavelength, and a second nonlinear crystal that combines the radiation of the first wavelength with the first portion of the output beam to generate the R beam by sum frequency mixing, said R-beam having a spectral width determined by the spectral width of the optical radiation of the first wavelength; a G-channel receiving a second portion of the output beam at the first output beam wavelength and generating the G beam, with the G-channel including a resonant cavity with a third nonlinear crystal producing second harmonic optical radiation of the first output beam wavelength, with the cavity of the G-channel further including an etalon that produces a plurality of longitudinal G-channel resonant cavity modes which define a spectral width of the G-channel; and a B-channel receiving a portion of the output beam at a second output beam wavelength; a first harmonic crystal producing a frequency-doubled wavelength of the second output beam wavelength; and a fourth nonlinear crystal that combines the laser output beam at the second output beam wavelength with the frequency-doubled wavelength of the second output beam wavelength to produce the B beam; with the spectral width of the R-channel and the G-channel reducing the speckle noise of the R,G,B laser light source.
- 2. The laser light source of claim 1, wherein the first output beam wavelength is one of 1047 nm and 1064 nm, and the second output beam wavelength is 1342 nm.
- 3. The laser light source of claim 1, wherein the laser medium is neodymiumyttrium-vanadate (Nd:YVO4).
- 4. The laser light source of claim 1, wherein the laser output beam that includes the plurality of output beam wavelengths is a substantially single beam.
- 5. The laser light source of claim 1, wherein the laser output beam that includes the plurality of output beam wavelengths comprises a first output beam at the first output beam wavelength and a second output beam, which is different from the first output beam, at the second output beam wavelength.
- 4. A color image video display system comprising:
an R,G,B laser light source with reduced speckle noise, which light source generates R, G and B beams and includes a laser with a laser medium producing a laser output beam of selected pulse width and a plurality of output beam wavelengths; an R-channel receiving a first portion of the output beam at a first output beam wavelength and generating the R beam, with the R-channel including a resonant cavity with a first nonlinear crystal producing optical radiation having a first wavelength that is greater than the first output beam wavelength and a spectral width that is greater than a spectral width of the first output beam wavelength, and a second nonlinear crystal that combines the radiation of the first wavelength with the first portion of the output beam to generate the R beam by sum frequency mixing, said R-beam having a spectral width determined by the spectral width of the optical radiation of the first wavelength; a G-channel receiving a second portion of the output beam at the first output beam wavelength and generating the G beam, with the G-channel including a resonant cavity with a third nonlinear crystal producing second harmonic optical radiation of the first output beam wavelength, with the cavity of the G-channel further including an etalon that produces a plurality of longitudinal G-channel resonant cavity modes which define a spectral width of the G-channel; and a B-channel receiving a portion of the output beam at a second output beam wavelength; a first harmonic crystal producing a frequency-doubled wavelength of the second output beam wavelength; and a fourth nonlinear crystal that combines the laser output beam at the second output beam wavelength with the frequency-doubled wavelength of the second output beam wavelength to produce the B beam.
- 5. The system of claim 4, wherein the first output beam wavelength is one of 1047 nm and 1064 nm, and the second output beam wavelength is 1342 nm.
- 6. The system of claim 4, wherein the laser medium is neodymium-yttriumvanadate.
- 7. The system of claim 4, further comprising three LCD panels, each panel optically and electronically coupled with one of the R,G,B beams to provide a full color LCD display system.
- 8. The system of claim 4, further comprising:
a first optical means to receive and shape the R,G,B beams; a spatial light modulator means to receive the R,G,B beams from the optical means, and to modulate the R,G,B beams to produce a full color video image; electronic means to operate the spatial light modulator means; and a second optical means to relay, combine, and project a full color video image on a screen.
- 9. The system of claim 8, wherein the spatial light modulator means comprises three transmissive or reflective LCD panels, one for each R,G,B beam.
- 10. The system of claim 8, wherein the first optical means includes expander, collimator and micro-array lens means to receive the R,G,B beams and to increase the R,G,B light transmission efficiency and minimize diffraction.
- 11. The system of claim 8, wherein the spatial light modulator means comprise three transmissive LCD panels, one for each R,G,B beam, and which system includes:
a) a first optical means which comprises a beam expander, collimator and micro-array lens means to expand, to collimate, and to increase transmission efficiency of the R,G,B beams from the light source and incident on the LCD panels; b) a second optical means which comprises an optical means to re-collimate the R,G,B beams on the opposite side of the LCD panels; and c) projection means to project the re-collimated R,G,B beams onto a screen.
- 12. A method of producing a laser R, G, B light source of reduced speckle noise useful in a full color display system, which method comprises:
a) providing a laser output beam having a first output wavelength and a second output wavelength; b) generating from the output beam at the first output wavelength, by crystal-based, non-linear frequency conversion, an intermediate beam having a spectral width substantially greater than a spectral width of the output beam at the first output wavelength and a wavelength longer than the first output wavelength, and subsequent crystal-based, non-linear sum frequency mixing of the intermediate beam with the output beam at the first output wavelength an R beam with a spectral width determined by the spectral width of the intermediate beam; c) generating from the output beam at the first output wavelength by crystal-based, non-linear frequency conversion, a G beam with spatial incoherency effected by multi-longitudinal mode operation produced by an etalon located in a G-channel cavity,; d) generating from the output beam at the second output wavelength a frequency-doubled beam, and combining the laser output beam at the second output wavelength with the frequency-doubled beam by sum frequency generation to produce a B beam; and e) mixing the generated R,G and B beams to provide a fall color beam with reduced speckle noise.
- 13. The laser light source of claim 12, wherein the first output wavelength is one of 1047 nm and 1064 nm, and the second output wavelength is 1342 nm.
REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation of U.S. patent application Ser. No. 09/319,058, filed May 27, 1999, now U.S. Pat. No. 6,304,237, which is a US National Phase application of PCT/US97/22066, filed Nov. 28, 1997, which claims the benefit of U.S. provisional application Ser. No. 60/032,069, filed Nov. 29, 1996, all of which are hereby incorporated by reference.
Provisional Applications (1)
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Number |
Date |
Country |
|
60032269 |
Nov 1996 |
US |
Continuations (1)
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Number |
Date |
Country |
Parent |
09319058 |
May 1999 |
US |
Child |
09977835 |
Oct 2001 |
US |