Stereomicroscope for making transparent media visible and method therefor
First Claim
Patent Images
1. A stereomicroscope, especially of the kind utilized to conduct ophthalmologic surgery, for making transparent media visible, the stereomicroscope comprising:
- first and second optics defining first and second viewing beam paths;
said transparent media defining objects, said objects being phase objects in transilluminating light and being positioned in said beam paths;
a light source arrangement for imaging illuminating light into a primary light source image on a light-reflecting surface, said primary light source image being reflected by said light-reflecting surface to produce wave components of reflected light transmitted through said objects and along said viewing beam paths whereby said objects form diffraction images and effect phase shifts of the diffracted wave components of said reflected light corresponding to said diffraction images;
said light-reflecting surface defining a first image plane and said first and second optics being configured to image said primary light source image including said diffraction images in a second image plane on said viewing beam paths; and
,phase contrasting elements disposed in said beam paths, respectively, for translating said phase shifts into amplitude contrasts visible to a person viewing with said stereomicroscope.
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Abstract
Phase-contrasting elements are arranged in the viewing beam paths of a stereomicroscope to make transparent media visible with rich contrast such as in the area of ophthalmologic surgery. The phase-contrasting elements make the transparent media visible as phase objects in the amplitude contrast. The phase-contrasting elements are selected in dependence upon the light source diaphragm which is used.
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Citations
18 Claims
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1. A stereomicroscope, especially of the kind utilized to conduct ophthalmologic surgery, for making transparent media visible, the stereomicroscope comprising:
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first and second optics defining first and second viewing beam paths; said transparent media defining objects, said objects being phase objects in transilluminating light and being positioned in said beam paths; a light source arrangement for imaging illuminating light into a primary light source image on a light-reflecting surface, said primary light source image being reflected by said light-reflecting surface to produce wave components of reflected light transmitted through said objects and along said viewing beam paths whereby said objects form diffraction images and effect phase shifts of the diffracted wave components of said reflected light corresponding to said diffraction images; said light-reflecting surface defining a first image plane and said first and second optics being configured to image said primary light source image including said diffraction images in a second image plane on said viewing beam paths; and
,phase contrasting elements disposed in said beam paths, respectively, for translating said phase shifts into amplitude contrasts visible to a person viewing with said stereomicroscope. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A stereomicroscope, especially of the kind utilized to conduct ophthalmologic surgery, for making transparent media visible, the stereomicroscope comprising:
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first and second optics defining first and second viewing beam paths; said transparent media defining objects, said objects being phase objects in transilluminating light and being positioned in said beam paths; a light source arrangement for imaging illuminating light into a primary light source image on a light-reflecting surface, said primary light source image being reflected by said light-reflecting surface to produce wave components of reflected light transmitted through said objects and along said viewing beam paths whereby said objects form diffraction images and effect phase shifts of the diffracted wave components of said reflected light corresponding to said diffraction images; said light-reflecting surface defining a first image plane and said first and second optics being configured to image said primary light source image including said diffraction images in a second image plane on said viewing beam paths; phase contrasting elements disposed in said beam paths, respectively, for translating said phase shifts into amplitude contrasts visible to a person viewing with said stereomicroscope; said light source arrangement including elements for imparting a predetermined form and size to said image; and
, said light-source arrangement further comprising a deflecting element for deflecting said illuminating light into said first and second beam paths and onto said light-reflecting surface at which the light of said primary light source image is reflected back along said beam paths to transilluminate said phase objects;said phase contrasting elements being mounted at or near said second image plane; said first and second optics including first and second binocular tubes and first and second magnification changing optical devices arranged along said first and second beam paths, respectively; and
, said second image plane being disposed on said beam paths between said binocular tubes and said magnification changing optical devices; and
,a coupling unit for coupling the position of said phase contrasting elements and the magnification of said first and second magnification changing optical devices whereby said phase contrasting elements are always positioned in said second image plane for every possible selected magnification. - View Dependent Claims (9, 10, 11, 12)
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13. A stereomicroscope, especially of the kind utilized to conduct ophthalmologic surgery, for making transparent media visible, the stereomicroscope comprising:
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first and second optics defining first and second viewing beam paths; said transparent media defining objects, said objects being phase objects in transilluminating light and being positioned in said beam paths; a light source arrangement for imaging illuminating light into a primary light source image on a light-reflecting surface, said primary light source image being reflected by said light-reflecting surface to produce wave components of reflected light transmitted through said objects and along said viewing beam paths whereby said objects form diffraction images and effect phase shifts of the diffracted wave components of said reflected light corresponding to said diffraction images; said light-reflecting surface defining a first image plane and said first and second optics being configured to image said primary light source image including said diffraction images in a second image plane on said viewing beam paths; phase contrasting elements disposed in said beam paths, respectively, for translating said phase shifts into amplitude contrasts visible to a person viewing with said stereomicroscope; said light source arrangement including elements for imparting a predetermined form and size to said image; and
, said light-source arrangement further comprising a deflecting element for deflecting said illuminating light into said first and second beam paths and onto said light-reflecting surface at which the light of said primary light source image is reflected back along said beam paths to transilluminate said phase objects;said phase contrasting elements being mounted at or near said second image plane; said light source arrangement comprising;
a light source for providing said illuminating light; and
, said elements for imparting a predetermined form and size to said primary light source image being at least one diaphragm mounted in said illuminating light for dimensioning the form and size of said primary light source image in said first image plane; and
,said phase contrasting elements comprising a first plurality of phase contrasting elements corresponding to said first beam path and a second plurality of phase contrasting elements corresponding to said second beam paths; and
, a switching device for selectively switching at least one of said first plurality of phase contrasting elements into said first beam path and for selectively switching at least one of said second plurality of phase contrasting elements into said second beam path.
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14. A stereomicroscope for conducting surgery on the eye which includes an ocular fundus and a forward section containing a transparent media in the form of lens residues, the stereomicroscope comprising:
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first and second optics defining first and second viewing beam paths; said transparent media defining objects, said objects being phase objects and being positioned in said beam paths; a light source arrangement for imaging illuminating light into a primary light source image at the ocular fundus, said primary light source image being reflected by said ocular fundus to produce wave components of reflected light transmitted through said objects and along said viewing beam paths whereby said objects form diffraction images and effect phase shifts of the diffracted wave components of said reflected light corresponding to said diffraction images; said ocular fundus defining a first image plane and said first and second optics and the eye conjointly imaging said primary light source image including said diffraction images in a second image plane on said viewing beam paths; and
,phase contrasting elements mounted in said beam paths, respectively, for translating said phase shifts into amplitude contrasts visible to a person viewing with said stereomicroscope.
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15. A method for providing an improved contrast of transparent media with a stereomicroscope, especially of the kind utilized to conduct ophthalmologic surgery, the transparent media defining phase objects in transilluminating light, the stereomicroscope including first and second optics defining first and second viewing beam paths, the method comprising the steps of:
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positioning said transparent media in said beam paths; providing a light source device for imaging illuminating light into a primary light source image at a light-reflecting surface defining a first image plane, said primary light source image being reflected by said light-reflecting surface to produce wave components of reflected light transmitted through said transparent media and along said viewing beam paths whereby said phase objects form diffraction images and effect phase shifts of the diffracted wave components of said reflected light corresponding to said diffraction images; utilizing said first and second optics to image said primary light source image including said diffraction images in a second image plane on said viewing beam paths; and
,introducing phase contrasting elements into said beam paths, respectively, for translating said phase shifts into amplitude contrasts visible to a person viewing with said stereomicroscope. - View Dependent Claims (16, 17)
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18. A method for contrasting transparent media in the human eye, the transparent media defining phase objects in light transmitted therethrough, the method comprising the steps of:
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providing a stereomicroscope having first and second optics defining first and second viewing beam paths; positioning the transparent media; intraocularly placing a light source in the eye and transilluminating the transparent media with wave components of transilluminating light which travel along said viewing beam paths whereby said phase objects form diffractive images and effect phase shifts of the diffracted wave components of said transilluminating light corresponding to said diffraction images; utilizing the eye and said first and second optics to image said diffraction images in an image plane on said beam paths; and
,introducing phase contrasting elements in said image plane in corresponding ones of said beam paths thereby translating said phase shifts into amplitude contrasts visible to a person viewing with said stereomicroscope.
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Specification