Transparent Thin Film, Process for Manufacturing a Film, and Spatial Phase Modulator

1 .- 20 . (canceled) 21 . A transparent thin film comprising liquid crystals comprising: a first main surface in vicinity of which liquid crystals are aligned along a main first direction; a second main surface in vicinity of which liquid crystals are aligned along a main second direction different from the first direction; and a bulk between the two the main surfaces and comprising liquid crystals in an isotropic arrangement. 22 . The film of claim 21 , wherein the liquid crystals are nematic liquid crystals. 23 . The film of claim 21 , wherein the bulk comprises a matrix of polymerized monomers. 24 . The film of claim 23 , wherein the bulk comprises unpolymerized liquid crystals, maintained in position by a matrix of polymerized monomers. 25 . The film of claim 23 , wherein at least some monomers of the matrix of polymerized monomers are liquid crystals. 26 . The film of claim 23 , wherein at least some monomers of the matrix of polymerized monomers are conventional monomers. 27 . The film of claim 23 , wherein the polymerized monomers of the matrix are photopolymerized monomers. 28 . The film of claim 21 , wherein the liquid crystals aligned along each of the first and second direction form layers having a thickness of from 0.1 nm to 30 nm. 29 . The film of claim 21 , wherein the thin film has a thickness of from 5 μm to 100 μm. 30 . The film of claim 21 , wherein the main first direction and main second direction are at 90° relative to the other. 31 . A process for manufacturing a film of claim 21 , comprising the following steps: providing a mold for a film comprising a mold cavity defined by a first main internal surface and a second main internal surface, for which the first main internal surface and the second main internal surface respectively have been submitted to a treatment which is adapted to align liquid crystals that are close to the first and second main internal surfaces of the mold into liquid crystal phases ordered according to respectively a first predetermined direction and a second predetermined direction different from the first direction: providing a polymerizable liquid crystal composition comprising at least a liquid crystal mesogen, the liquid crystal composition having a liquid crystal phase-isotropic phase transition temperature; introducing the liquid crystal composition in a liquid state into the mold cavity; maintaining the liquid crystal composition in the mold at an annealing temperature; and polymerizing the polymerizable liquid crystal composition while the liquid crystal composition is at the annealing temperature, wherein the annealing temperature is greater than the liquid crystal phase-isotropic phase transition temperature. 32 . The process of claim 31 , wherein the annealing temperature is lower than temperature values at which liquid crystals which are positioned in closest vicinity to the interface with each of the main internal surfaces of the mold endure a liquid crystal phase—isotropic phase shift. 33 . The process of claim 31 , wherein the annealing temperature is 1° C. to 50° C. higher than the liquid crystal phase—isotropic phase transition temperature. 34 . The process of claim 31 , wherein the liquid crystal composition is a photopolymerizable composition. 35 . The process of claim 31 , wherein the polymerizable liquid crystal composition comprises at least a polymerizable monomer further defined as: a polymerizable liquid crystal mesogen or a mixture of polymerizable liquid crystals mesogens; a polymerizable monomer or a mixture of polymerizable monomers other than liquid crystals mesogens; or a mixture of polymerizable liquid crystal mesogens and other polymerizable monomer. 36 . The process of claim 31 , wherein the polymerizable liquid crystal composition is poured into the mold cavity at a temperature lower than the liquid crystal phase—isotropic phase transition temperature. 37 . The process of claim 31 , wherein the polymerizable liquid crystal composition is poured into the mold cavity at the annealing temperature, and the polymerization of the liquid crystal composition is started once liquid crystals in the vicinity of the mold internal surfaces are in the liquid crystal state. 38 . The process of claim 31 , wherein the liquid crystal phase is a nematic phase mesogen. 39 . The process of claim 31 , further comprising treating the first and second main internal surfaces of the mold by rubbing the first and second main internal surfaces in the first and second predetermined directions, respectively. 40 . A spatial phase modulator comprising two parallel or two anti-parallel aligned liquid crystal cells having different orientations from each other and an intermediate layer between the two liquid crystal cells for inducing the desired orientation for the liquid crystals in the cells, wherein the intermediate layer is a monolayer made of a transparent film of claim 21 . 41 . The spatial phase moderator of claim 40 , wherein the liquid crystals are nematic liquid crystals. 42 . The spatial phase moderator of claim 40 , wherein the bulk comprises a matrix of polymerized monomers. 43 . The spatial phase moderator of claim 40 , wherein at least some monomers of the matrix of polymerized monomers are liquid crystals. 44 . The spatial phase moderator of claim 40 , wherein the liquids crystals aligned along each at the first and second direction form layers having a thickness of 0.1 nm to 30 nm. 45 . The spatial phase moderator of claim 40 , wherein the thin film has a thickness of 5 μm to 100 μm. 46 . The spatial phase moderator of claim 40 , wherein the main direction and main second direction are at 90° relative to the other.