Method and system for identification of a given geometrical feature of an optical component

The invention claimed is: 1. A method for identification of a given geometrical feature of an optical component, said method comprising: providing ( 32 ) the optical component ( 12 ), said optical component ( 12 ) selected from the group consisting of an ophthalmic lens and a semi-finished ophthalmic lens blank, and said optical component ( 12 ) composed of an organic material that emits light at an emission wavelength λ e when illuminated by an illumination wavelength λ i , said emission wavelength λ e being different from said illumination wavelength λ i ; illuminating ( 34 , 74 ) a surface ( 16 , 64 ) of the optical component with an incident light beam comprising at least light at the illumination wavelength but devoid from the light at the emission wavelength, said surface of the optical component being illuminated in an illumination direction with the incident light beam having the form of a sheet of light ( 56 ) substantially perpendicular to said surface of the optical component; collecting ( 36 , 76 ) light emitted at the emission wavelength by the illuminated surface of the optical component in a viewing direction to build an image of said surface, an angle between the illumination direction and the viewing direction being substantially between 5° and 90°; and processing said image by implementing computer means that applies metrics to compare the image with reference data that are specific to the given geometrical feature and produces and stores an identification output of said given geometrical feature that distinguishes between single vision lenses, bifocal lenses, trifocal lenses, and progressive addition lenses, wherein the processing of said image produces and stores a profile of a curve that is formed by an intersection of the sheet of light ( 56 ) and the illuminated surface of the optical component, the identification output of said given geometrical feature being produced from the profile of the curve, and the processing includes a calculation where the angle between the illumination and viewing directions is used to determine and store an exact value of at least one curvature radius of the produced profile of the curve. 2. The method for identification of a given geometrical feature of an optical component according to claim 1 , wherein the angle between the illumination and viewing directions is substantially equal to 85°. 3. The method for identification of a given geometrical feature of an optical component according to claim 2 , said method further comprising: a step for determining a size parameter of the illuminated surface of the optical component. 4. The method for identification of a given geometrical feature of an optical component according to claim 2 , said method further comprising: a step of translating continuously the optical component along a translation direction perpendicular to the sheet of light in such a manner as to produce an image scanning of the surface. 5. The method for identification of a given geometrical feature of an optical component according to claim 1 , said method further comprising: a step for determining a size parameter of the illuminated surface of the optical component. 6. The method for identification of a given geometrical feature of an optical component according to claim 1 , wherein the optical component has at least a spherical or aspherical surface, a sphero-toric surface, a progressive surface, a surface comprising a plurality of segments. 7. The method for identification of a given geometrical feature of an optical component according to claim 1 , said method further comprising: a step of translating continuously the optical component along a translation direction perpendicular to the sheet of light in such a manner as to produce an image scanning of the surface. 8. The method for identification of a given geometrical feature of an optical component carrying out a method according to claim 1 , wherein the optical component is made of an organic material chosen within the list consisting of: polycarbonate, polymethyl methacrylate, CR39, CR607, MR8, MR7, Trivex. 9. The method for packing an optical component in a corresponding package, said package having a characterizing feature, where said method comprises using the method as claimed in claim 1 in such a manner as to identify a given geometrical feature of the optical component and then selecting the corresponding package thanks to correlation rules between said given geometrical feature of the optical component and the characterizing feature of the corresponding package. 10. A method for manufacturing a spectacle lens from a semi-finished lens blank for ophthalmic lens comprising a finished optical surface and a non-finished surface, said method comprising: using the method for identification of a feature of an optical element as claimed in claim 1 in such a manner as to identify a given geometrical feature of the finished optical surface of the semi-finished lens blank; and machining the non-finished surface of the semi-finished lens blank so as to obtain a prescription-optimized surface taking into account at least both individual data of a spectacle prescription and said geometrical feature of finished optical surface of the semi-finished lens blank. 11. A computer program product, recorded on a non-transitory computer readable medium, comprising one or more stored sequence of instructions executable by a processor and, when executed by the processor, causes the processor to: process ( 38 ) an image built from collected light, said collected light collected from an emission of light emitted by an illuminated surface of an optical component, said optical component having an organic material such that the illuminated surface emits light at an emission wavelength λ e upon illumination by light at an illumination wavelength λ i which is different from the emission wavelength λ e , where the surface illuminated of the optical component and emitting the emission wavelength λ e is illuminated with an incident light beam comprising at least light at the illumination wavelength λ i but devoid light at the emission wavelength λ e , and said illuminated surface of the optical component is illuminated in an illumination direction with the incident light beam having the form of a sheet of light ( 56 ) substantially perpendicular to said surface of the optical component, an angle between the illumination direction and the viewing direction being substantially between 5° and 90°; apply metrics to compare the image with reference data that are specific to a given geometrical feature; and produce and store an identification output of said given geometrical feature that distinguishes between single vision lenses, bifocal lenses, trifocal lenses, and progressive addition lenses, wherein the processing of said image produces and stores a profile of a curve that is formed by an intersection of the sheet of light ( 56 ) and the illuminated surface of the optical component, the identification output of said given geometrical feature being produced from the profile of the curve, and the processing includes a calculation where the angle between the illumination and viewing directions is used to determine and store an exact value of at least one curvature radius of the produced profile of the curve. 12. A system ( 10 , 50 , 80 ) for identification of a given geometrical feature of an optical component ( 12 ), comprising: an illumination source ( 14 , 54 ) adapted to illuminate in an illumination direction a surface ( 16 , 64 ) of the optical component ( 12 ) with an incident light beam having an illumination wavelength λ i and having the form of a sheet of