Process and mold for fabricating an optical device, and an optical device

1 - 14 . (canceled) 15 . A process for fabricating an optical device comprising optically active surfaces for modifying light distribution, the process comprising: injecting optical silicone in fluidic state into a mold cavity formed by two or more mutually matching mold-elements, curing the optical silicone contained by the mold cavity, the optical silicone being reversibly elastic after the curing, and separating the mold-elements from the optical device constituted by the optical silicone, wherein at least one of the mold-elements has counterdraft causing a reversible deformation of the optical device when the at least one of the mold-elements is separated from the optical device. 16 . A process according to claim 15 , wherein the mold-elements form the mold cavity so that walls of the mold cavity corresponding to the optically active surfaces of the optical device are free from dividing joints between the mold-elements. 17 . A process according to claim 15 , wherein the mold cavity is rotationally symmetric, and the mold-elements forming the mold cavity consist of a first mold-element that is separated from the optical device in a first direction parallel with an axis of rotational symmetry of the mold cavity and a second mold-element that is separated from the optical device in a second direction opposite to the first direction. 18 . A process according claim 15 , wherein one of the mold-elements comprises a cantilever protruding towards the mold cavity and forming a corresponding cavity on the optical device, at least a part of the cantilever being shaped to have counterdraft causing the reversible deformation of the optical device when the mold-element under consideration is separated from the optical device. 19 . A process according to claim 15 , wherein one of the mold-elements is shaped to form a portion of the mold cavity so that the portion of the mold cavity has counterdraft by tapering in a direction opposite to a direction in which the mold-element under consideration is separated from the optical device. 20 . A process according to claim 15 , wherein the process further comprises post-curing ( 304 ) the optical device with heat treatment after the mold-elements have been separated from the optical device. 21 . A mold for fabricating an optical device comprising optically active surfaces for modifying light distribution, the mold comprising two of more mutually matching mold-elements for forming a mold cavity for receiving material of the optical device, wherein at least one of the mold-elements has counterdraft causing a reversible deformation of the optical device when the at least one of the mold-elements is separated from the optical device. 22 . A mold according to claim 21 , wherein the mold-elements are adapted to form the mold cavity so that walls of the mold cavity corresponding to the optically active surfaces of the optical device are free from dividing joints between the mold-elements. 23 . A mold according to claim 21 , wherein the mold cavity is rotationally symmetric, and the mold-elements for forming the mold cavity consist of a first mold-element that is separable from the optical device in a first direction parallel with an axis of rotational symmetry of the mold cavity and a second mold-element that is separable from the optical device in a second direction opposite to the first direction. 24 . A mold according to claim 21 , wherein one of the mold-elements comprises a cantilever protruding towards the mold cavity and forming a corresponding cavity on the optical device, at least a part of the cantilever being shaped to have counterdraft causing the reversible deformation of the optical device when the mold-element under consideration is separated from the optical device. 25 . A mold according to claim 21 , wherein one of the mold-elements is shaped to form a portion of the mold cavity so that the portion of the mold cavity has counterdraft by tapering in a direction opposite to a direction in which the mold-element under consideration is separated from the optical device. 26 . An optical device obtainable by a process comprising: injecting optical silicone in fluidic state into a mold cavity formed by two or more mutually matching mold-elements, curing the optical silicone contained by the mold cavity, the optical silicone being reversibly elastic after the curing, and separating the mold-elements from the optical device constituted by the optical silicone, wherein at least one of the mold-elements has counterdraft causing a reversible deformation of the optical device when the at least one of the mold-elements is separated from the optical device. 27 . An optical device according to claim 26 , wherein optically active surfaces of the optical device are free from traces of dividing joints between the mold-elements. 28 . An illuminator system comprising: at least one optical device for modifying distribution of light, and at least one light source installed to the at least one optical device and adapted to produce the light wherein the optical device is obtainable by a process comprising: injecting optical silicone in fluidic state into a mold cavity formed by two or more mutually matching mold-elements, curing the optical silicone contained by the mold cavity, the optical silicone being reversibly elastic after the curing, and separating the mold-elements from the optical device constituted by the optical silicone, wherein at least one of the mold-elements has counterdraft causing a reversible deformation of the optical device when the at least one of the mold-elements is separated from the optical device. 29 . A process according to claim 16 , wherein the mold cavity is rotationally symmetric, and the mold-elements forming the mold cavity consist of a first mold-element that is separated from the optical device in a first direction parallel with an axis of rotational symmetry of the mold cavity and a second mold-element that is separated from the optical device in a second direction opposite to the first direction. 30 . A process according claim 16 , wherein one of the mold-elements comprises a cantilever protruding towards the mold cavity and forming a corresponding cavity on the optical device, at least a part of the cantilever being shaped to have counterdraft causing the reversible deformation of the optical device when the mold-element under consideration is separated from the optical device. 31 . A process according to claim 16 , wherein one of the mold-elements is shaped to form a portion of the mold cavity so that the portion of the mold cavity has counterdraft by tapering in a direction opposite to a direction in which the mold-element under consideration is separated from the optical device. 32 . A mold according to claim 22 , wherein the mold cavity is rotationally symmetric, and the mold-elements for forming the mold cavity consist of a first mold-element that is separable from the optical device in a first direction parallel with an axis of rotational symmetry of the mold cavity and a second mold-element that is separable from the optical device in a second direction opposite to the first direction. 33 . A mold according to claim 22 , wherein one of the mold-elements comprises a cantilever protruding towards the mold cavity and forming a corresponding cavity on the optical device, at least a part of the cantilever being shaped to have counterdraft causing the reversible deformation of the optical device when the mold-e