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Title: Laser internal coupling modulation arrangement with wire grid polarizer serving as a reflector and coupler
Claims: What is claimed is: 1. A laser modulation arrangement comprising: a laser medium disposed along a predetermined axis; means for exciting said laser medium to a condition of population inversion; a reflective element spaced from one end of said laser medium along said axis and a wire grid polarizer spaced from the other end of said laser medium along said axis in such manner as to constitute a laser optical cavity for stimulating the emission of laser radiation from said medium along said axis; an electrooptic modulator disposed along said axis within said laser optical cavity and responsive to an applied voltage to change the plane of polarization of said laser radiation traversing said modulator by an angle dependent upon the magnitude of said applied voltage; and means for applying a modulating voltage to said modulator. 2. A laser modulation arrangement comprising: a laser medium disposed along a predetermined axis; means for exciting said laser medium to a condition of population inversion; a reflective element spaced from one end of said laser medium along said axis and a wire grid polarizer spaced from the other end of said laser medium along said axis in such manner as to constitute a laser optical cavity for stimulating the emission of laser radiation from said medium along said axis; an electrooptic modulator disposed along said axis within said laser optical cavity and responsive to an applied voltage to change the plane of polarization of said laser radiation traversing said modulator by an angle depending upon the magnitude of said voltage; and means for applying to said modulator a modulating voltage which varies between a first level enabling said laser radiation to regeneratively traverse said laser medium linearly polarized in a predetermined plane as determined by said wire grid polarizer, and at least one different level causing said modulator to produce a component of said laser radiation linearly polarized in a plane orthogonal to said predetermined plane, whereby said component is coupled out of said laser optical cavity along said axis via said wire grid polarizer. 3. A laser modulation arrangement comprising: a laser medium disposed along a predetermined axis; means for exciting said laser medium to a condition of population inversion; a reflective element spaced from one end of said laser medium along said axis and having a surface substantially totally reflective of radiation at a predetermined wavelength facing said laser medium; a slab of material transparent to radiation at said predetermined wavelength spaced from the other end of said laser medium along said axis and having a planar surface disposed perpendicular to said axis and facing said laser medium, a plurality of parallel electrically conductive strips disposed on said planar surface with a center-to-center spacing less than said predetermined wavelength, said slab and said reflective element constituting an optical resonator for stimulating the emission of laser radiation at said predetermined wavelength from said medium along said axis; an electrooptic modulator disposed along said axis between said laser medium and one of the elements selected from the group consisting of said slab and said reflective element and responsive to an applied voltage to change the plane of polarization of said laser radiation traversing said modulator by an angle dependent upon the magnitude of said applied voltage; and means for applying a modulating voltage to said modulator. 4. A laser modulation arrangement comprising: a laser medium disposed along a predetermined axis; means for exciting said laser medium to a condition of population inversion; a reflective element spaced from one end of said laser medium along said axis and having a surface substantially totally reflective of radiation at a predetermined wavelength facing said laser medium; a slab of a material transparent to radiation at said predetermined wavelength spaced from the other end of said laser medium along said axis and having a planar surface disposed perpendicular to said axis and facing said laser medium, a plurality of parallel electrically conductive strips disposed on said planar surface with a center-to-center spacing less than said predetermined wavelength, said slab and said reflective element constituting an optical resonator for stimulating the emission of laser radiation at said predetermined wavelength from said medium along said axis; an electrooptic modulator disposed along said axis between said laser medium and one of the elements selected from the group consisting of said slab and said reflective element and responsive to an applied voltage to change the plane of polarization of said laser radiation traversing said modulator by an angle dependent upon the magnitude of said applied voltage; and means for applying to said modulator a modulating voltage which varies between a first level enabling said laser radiation to regeneratively traverse said laser medium linearly polarized in a predetermined plane parallel to said strips, and at least one different level causing said modulator to produce a component of said laser radiation linearly polarized in a plane orthogonal to said predetermined plane, whereby said component is coupled out of said arrangement along said axis via said slab. Other info: Inventors: Abrams, Richard L. (Pacific Palisades, CA, US) Application Number: 584788 Filing Date: 1975-06-09 Publication_date: 1978-08-01 Assignee: Hughes Aircraft Company (Culver City, CA) Primary Class(es): 372/106 372/99, 372/103, 372/108 Other Classes: US Patent Ref:
Other Refs: Other References: Ulrich et al., Applied Optics, vol. 9, No. 11, Nov. 1970, pp. 2511-2516. | |