Claims
- 1. An optical, temporal bandpass filter device, said device comprising:
- front and back linear polarizers having their directions of polarization orthogonal to each other;
- front and back liquid crystal light valves positioned in optical alignment between said front and back polarizers with a relay lens in optical alignment between said front and back liquid crystal light valves to provide image focus therebetween, said front and back liquid crystal light valves having different times of responses and opposite handedness of rotary direction untwist with matching degrees of untwist relative to the original local light intensity distribution in an optical light image emitted from an optical image producing source;
- means for applying different a.c. voltages across said front and back liquid crystal light valves to cause faster time-based modulation of untwist in the liquid crystal cell molecules of one of said front and back liquid crystal light valves, wherein said optical light image is linearly polarized by said front linear polarizer with the linearly polarized optical light image focused on said front liquid crystal light valve in which the plane of polarization of said linearly polarized optical image is untwisted in a rotary direction by said front liquid crystal light valve in one handedness direction and is simultaneously untwisted in a rotary direction in the opposite handedness direction by said back liquid crystal light valve wherein said plane of polarization varies according to said original local light intensity distribution wherein the untwisted optical light image impinges on said back linear polarizer with only the portion of the optical light image transmitted therethrough which has time response within the passband of the faster liquid crystal cell to become at least partially untwisted and which is above the passband of the slower liquid crystal cell which has not had time to start any opposite handedness of untwist to cancel the untwist in said faster liquid crystal cell.
- 2. An optical, temporal bandpass filter device as set forth in claim 1 wherein said front and back linear polarizers are linear dichroic polarizers and said front and back liquid crystal light valves are twisted nematic liquid crystal light valves each comprising:
- forward and rearward plane glass plates forming liquid cells;
- forward and rearward transparent electrodes on the interior surfaces of said glass plates;
- a partially transparent photoconductive layer on the interior surface of said forward transparent electrode;
- forward and rearward thin alighment insulator layers on said photoconductive layer and on the interior of said rearward transparent electrode, wherein walls of said thin alignment insulator layers are conditioned to give a homogeneous alignment of the surface molecules but are connected so there is 90.degree. twist in alignment between the walls of each cell; and
- twisted nematic liquid crystal cell having a liquid crystal material therein which is nematic at room temperature and is homogeneously aligned in each cell with a 90.degree. twist and is enclosed by said forward and rearward thin alignment insulator layers and insulator shims;
- and wherein said means for applying different a.c. voltages across said front and back liquid crystal light valves is comprised of electrical connections to said transparent electrode to provide field effects across said partially transparent photoconductor layer and said twisted nematic liquid crystal cell.
- 3. An optical, temporal bandpass filter device as set forth in claim 2 wherein said faster twisted nematic liquid crystal cell is about 5 .mu.m thick and the slower twisted nematic liquid crystal cell is 10 .mu.m and more thick and wherein said means for supplying a.c. voltages is comprised of two a.c. voltage sources operating at between 20 to 100 volts rms wherein a 30 KH.sub.Z source is applied across the faster cell to provide a faster time response and a 10 KH.sub.Z source is applied across the much thicker, slower cell to provide a slower time response.
- 4. An optical, temporal bandpass filter device as set forth in claim 3 wherein said plane glass plates are made of optical glass free of stains and said thin alignment insulator layers are made of silicon oxide layers of a thickness of from 1000 .ANG. to 5000 .ANG..
- 5. An otpical, temporal bandpass of filter device as set forth in claim 4 wherein said liquid crystal material is comprised of 4'-methoxybenzylidene-4-butylaniline (MBBA).
- 6. An optical, temporal bandpass filter device as set forth in claim 4 wherein said liquid crystal material is comprised of a binary of 60 mole percent 4'-methoxybenzylidene-4-butylaniline and 40 mole percent 4'-ethyoxygenzylidene-4-n-butylaniline (MBBA:EBBA).
- 7. An optical, temporal bandpass filter device as set forth in claim 4 wherein said liquid crystal material is comprised of ternary and quaternary mixtures of liquid crystals.
- 8. An optical, temporal bandpass filter device as set forth in claim 5 wherein said transparent electrodes are comprised of indium-tin-oxide.
- 9. An optical, temporal bandpass filter device as set forth in claim 5 wherein said transparent electrodes are comprised of tin-oxide.
- 10. An optical, temporal bandpass filter device as set forth in claim 8 wherein said photoconductor layers are comprised of cadmium-sulfide of from 2 .mu.m to 12 .mu.m thick.
- 11. An optical, temporal bandpass filter device as set forth in claim 8 wherein said photoconductor layers are comprised of cadmium-selenide of from 2 .mu.m to 12 .mu.m thick.
- 12. An optical, temporal bandpass filter device as set forth in claim 8 wherein said photoconductor layers are comprised of cadmium-selenide-sulfide of from 2 .mu.m to 12 .mu.m thick.
- 13. An optical, temporal bandpass filter device as set forth in claim 4 wherein said liquid crystal material is comprised of positive and negative nematic liquid crystals.
- 14. An optical, temporal bandpass filter device as set forth in claim 5 wherein said faster cell is the front liquid crystal light valve and said slower cell is the back liquid crystal light valve.
Government Interests
The invention described herein may be manufactured, used, and licensed by the U.S. Government for governmental purposes without the payment of any royalties thereon.
US Referenced Citations (2)
Number |
Name |
Date |
Kind |
3679290 |
Adams et al. |
Jul 1972 |
|
3824002 |
Beard |
Jul 1974 |
|
Non-Patent Literature Citations (1)
Entry |
Levenson, "Color-Mask Plate for Color Liquid Crystal Displays", IBM Technl Disclosure Bulletin vol. 24, No. 8, p. 4036, Jan. 1982. |