A polarization insensitive tunable optical filter system combines an interference filter or the like with a quarter wave plate and a retro-reflector. The retro-reflector is situated and aligned to intercept light reflected from the filter, and the quarter wave plate is disposed between the filter an
A polarization insensitive tunable optical filter system combines an interference filter or the like with a quarter wave plate and a retro-reflector. The retro-reflector is situated and aligned to intercept light reflected from the filter, and the quarter wave plate is disposed between the filter and the retro-reflector. Hence, the pass signal reflected off the filter a first time passes through the quarter wave plate a first time, reflects off of the retro-reflector, passes through the quarter wave plate a second time, and reflects off of the filter a second time.
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1. A polarization independent tunable optical filter system comprising:a filter of the type which reflects a pass signal and transmits a drop signal according to frequency, mounted for rotation with respect to the input beam such that the angle of incidence of the input beam varies as the filter is
1. A polarization independent tunable optical filter system comprising:a filter of the type which reflects a pass signal and transmits a drop signal according to frequency, mounted for rotation with respect to the input beam such that the angle of incidence of the input beam varies as the filter is rotated through a variety of tuning orientations; anda retro reflector assembly situated and aligned to intercept light reflected from the filter, the retro reflector assembly including:a quarter wave plate, anda retro reflector element,wherein the pass signal reflected off the filter a first time passes through the quarter wave plate a first time, reflects off of the retro reflector, and retraces its path to pass through the quarter wave plate a second time, and reflect off of the filter a second time regardless of the filter tuning orientation. 2. The apparatus of claim 1 wherein the filter is an interference filter. 3. The apparatus of claim 1, further including a null state/all-pass element wherein:the filter further comprises a mirror portion adjacent to a filtering portion and;wherein the retro reflector element includes a cylindrical lens whose axis is parallel to the direction from the mirror portion to the filtering portion; andfurther comprising a beam displacer for selectively redirecting the input beam toward the mirror portion or the filtering portion. 4. The filter system of claim 1, wherein the retro reflector element comprises:a lens located one focal length from the filter; anda mirror located one focal length from the lens. 5. The filter system of claim 1, wherein the retro reflector element comprises an array of retro reflector elements. 6. The filter system of claim 1, wherein the retro reflector element comprises:a first mirror affixed adjacent to the filter, wherein the fixed angle formed by the plane of the filter and the plane of the first mirror is under 180°, the mirror and the filter forming a reflector assembly;means for directing the input beam such that the portion of the input beam that reflects off of the filter reflects off of the mirror; andmeans for rotating the reflector assembly about an axis at the vertex of the plane of the filter and the plane of the mirror; anda second mirror aligned to intercept the reflected light from the first mirror;wherein the quarter wave plate is located between the first mirror and the second mirror. 7. The apparatus of claim 6, wherein the angle formed by the plane of the filter and the plane of the first mirror is approximately 45°. 8. The filter system of claim 1, further comprising:a circulator between the input beam and the filter for providing the input beam to the filter, and for providing light reflected from the filter the second time as a pass signal. 9. The filter system of claim 8, further including a circulator between the filter and the drop signal for providing the input light transmitted through the filter as a drop signal and for providing an add signal to the filter for combination with the pass signal. 10. The filter system of claim 1, further including:a connector between the input beam and the filter for providing the input beam along a first path to the filter, and for collecting light reflected from the filter the second time as a pass signal along a second path. 11. The filter system of claim 10, further including:a connector between the filter and the drop signal for collecting light passed through the filter along a first path and for providing an add signal to the filter along a second path. 12. A polarization independent tunable optical filter system comprising:filter means of the type which is tunable by rotation with respect to an input beam into one of a plurality of filtering orientations for reflecting a pass signal and transmitting a drop signal according to frequency; andretro-reflector means situated and aligned to intercept and reflect light reflected from the filter means, the retro-reflector means including:means for rotating the polarization of light by 90°, andmeans for reflecting light back to the filter means,wherein the pass signal reflected off the filter means a first time reflects from the retro-reflector means and retraces its path to reflect off of the filter means a second time, regardless of the filtering orientation. 13. The filter system of claim 12, further comprising:means between the input beam and the filter for providing the input beam to the filter means, and for providing light reflected from the filter means the second time as a pass signal. 14. The filter system of claim 13, further including means between the filter and the drop signal for providing the input light transmitted through the filter as a drop signal and for providing an add signal to the filter for combination with the pass signal. 15. The filter system of claim 13, wherein the means for rotating comprises a quarter wave plate through which the light passes twice. 16. The apparatus of claim 13, further including a null state/all-pass switch for either reflecting all input light or for allowing input light to hit the filter means. 17. The method for tunably filtering unpolarized light comprising the steps of:positioning a filter of the type which reflects a pass signal and transmits a drop signal according to frequency and is tunable by rotation with respect to the input beam into one of a plurality of filtering orientations;reflecting a pass signal off of the filter and transmitting a drop signal through the filter according to frequency;rotating the polarization of the reflected pass signal by 90°;guiding the rotated signal to retrace its path to intercept the filter a second time regardless of the filtering orientation of the filter;reflecting the rotated signal off of the filter a second time; andproviding the rotated and twice reflected signal as a pass output signal. 18. The method of claim 17, further including the step of providing an add signal to the filter for combination with the pass signal.
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Neeves Arthur E. (Morristown NJ) Watters William E. (Hackettstown NJ) Williams James E. (Hackettstown NJ), Adjustable filter for tuning multimode optical signals.
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