Optical filter and method for preparing same

1 - 20 . (canceled) 21 . A graded optical filter having a substantially planar main body, the optical filter comprising a first filter material and a second filter material present in respective regions of said main body, the first filter material and the second filter material having substantially the same real part of their refractive index and different light attenuation properties, wherein the first filter material and the second filter material are in mutual contact along an interface surface, and wherein a cross-section of said interface surface along a plane perpendicular to said main body comprises a curved line. 22 . The optical filter according to claim 21 , wherein a combined thickness of the first filter material and the second filter material is preferably at least 0.5 mm. 23 . The optical filter according to claim 21 , wherein said curved line is shaped so as to provide the filter with continuous transitions between gradient levels. 24 . The optical filter according to claim 21 , wherein the difference between the real part of the refractive index of said first filter material and the real part of the refractive index of said second filter material is less than 0.002. 25 . The optical filter according to claim 21 , wherein said curved line is described by y=a 1 n(bx), where x and y are coordinates in said plane, the x-axis being parallel to said main body and the y-axis being perpendicular to said main body, and a and b are scaling constants. 26 . The optical filter according to claim 21 , wherein the material thicknesses are chosen to provide a pre-defined filter transmission. 27 . The optical filter according to claim 21 , wherein at least one of said first filter material and said second filter material is perceived homogeneous for the intended radiation. 28 . The optical filter according to claim 21 , wherein means for increasing the absorption coefficient have been added to at least one of said first filter material and said second filter material. 29 . The optical filter according to claim 21 , wherein at least one of said first filter material and said second filter material comprises a resin. 30 . The optical filter according to claim 21 , further comprising a first transmitting sheet covering a first side of said main body. 31 . The optical filter according to claim 21 , further comprising a second transmitting sheet covering a second side of said main body. 32 . The optical filter according to claim 30 , wherein the first transmitting sheet and/or the second transmitting sheet are glass plates or transparent polymers. 33 . A projection system comprising a plurality of projectors, wherein each one of said plurality of projectors is equipped with an optical filter according to claim 21 . 34 . A method for preparing a graded optical filter, the method comprising: combining a first planar surface and a moulding element to form a first moulding cavity, said first moulding cavity being delimited on one side by a first part of said first planar surface and along an edge by a moulding surface of the moulding element, inserting a first material in said first moulding cavity in liquid state, allowing the bulk of said first material to solidify, removing the moulding element so as to produce a second moulding cavity in the space previously occupied by the moulding element, said second moulding cavity being delimited on one side by a second part of said first planar surface and along an edge by said solidified first material, and inserting a second material in the second moulding cavity in liquid state; wherein the first material and the second material have substantially the same real part of their refractive index and different light attenuation properties; and wherein a cross-section of said moulding surface along a plane perpendicular to said first planar surface comprises a curved line. 35 . The method according to claim 34 , wherein a combined thickness of the first filter material and the second filter material is preferably at least 0.5 mm. 36 . The method according to claim 34 , wherein said curved line is shaped so as to provide the filter with continuous transitions between gradient levels. 37 . The method according to claim 36 , wherein the outer boundaries of said first material are left partly non-solidified during the removing of the moulding element. 38 . The method according to claim 34 , wherein the first planar surface is a first transmitting sheet, which becomes part of the optical filter, and/or the method further comprises placing a second transmitting sheet on top of the first material and the second material, parallel to the first planar surface, said second transmitting sheet becoming part of the optical filter.