Liquid crystal display with an alignment control layer containing polymerized mesogen and a manufacturing method of the liquid crystal display

The invention claimed is: 1. A liquid crystal display device comprising: a first substrate and a second substrate configured to face each other; a liquid crystal layer positioned between the first and second substrates; a first alignment film positioned between the liquid crystal layer and the first substrate; and a second alignment film positioned between the liquid crystal layer and the second substrate, wherein at least one of the first alignment film and the second alignment film includes a double layer of an alignment base film that is aligned so as to have a pretilt angle and an alignment control film that has polymerized mesogens; wherein an anchoring energy of the alignment control film is at least about 22% larger than an anchoring energy of the alignment base film; wherein a polar angle of the polymerized mesogen within the alignment control film is larger than a polar angle of the pretilt angle of the alignment base film when the liquid crystal layer includes a liquid crystal having positive dielectric anisotropy, and wherein the polar angle of the polymerized mesogen within the alignment control film is smaller than the polar angle of the pretilt angle of the alignment base film when the liquid crystal layer includes a liquid crystal having negative dielectric anisotropy. 2. The liquid crystal display device of claim 1 , wherein the alignment control film has a phase delay value of no more than 0.1 times the phase delay value of the liquid crystal layer. 3. The liquid crystal display device of claim 1 , wherein the alignment base film is a film that is optically aligned. 4. The liquid crystal display device of claim 1 , further comprising: a first electrode and a second electrode positioned between the first alignment film and the first substrate. 5. The liquid crystal display device of claim 4 , further comprising: a first electrode positioned between the first alignment film and the first substrate; and a second electrode positioned between the second alignment film and the second substrate. 6. The liquid crystal display device of claim 1 , wherein the alignment base film includes a first domain having a first alignment direction, and a second domain having a second alignment direction. 7. A manufacturing method of a liquid crystal display device, comprising: forming a first alignment base film aligned on a first substrate so as to have a pretilt angle; forming a first reactive mesogen film containing reactive mesogens on the first alignment base film; combining a second substrate and the first substrate on which the first alignment base film and the first reactive mesogen film are formed; forming a liquid crystal layer having liquid crystals between the combined first and second substrates; applying an electric field to the liquid crystal layer to align the liquid crystals within the liquid crystal layer; and polymerizing the reactive mesogens within the first reactive mesogen film in a state in which the liquid crystals are aligned to have an arrangement state according to the electric field to thereby form a first alignment control film including polymerized mesogens, wherein the polymerized mesogens in the first alignment control film have a pretilt angle corresponding to the arrangement state of liquid crystals within the liquid crystal layer; wherein an anchoring energy of the first alignment control film is at least about 22% larger than an anchoring energy of the first alignment base film. 8. The manufacturing method of claim 7 , wherein the electric field is applied between a first electrode and a second electrode which are formed on at least one of the substrates. 9. The manufacturing method of claim 7 , wherein the polymerizing is performed in such a manner that the reactive meso, en film is irradiated with light. 10. The manufacturing method of claim 7 , wherein the reactive mesogen film is formed using a mixture containing the reactive mesogens and a solvent; and wherein the reactive mesogen is contained at about 0.5 to less than 1% with respect to the entire weight of the mixture used in forming the reactive mesogen film. 11. The manufacturing method of claim 10 , wherein, when polymerizing the reactive mesogen within the reactive mesogen film, the solvent remains within the reactive mesogen film. 12. The manufacturing method of claim 7 , wherein the alignment base film is a film that is optically aligned. 13. The manufacturing method of claim 7 , wherein the alignment base film includes a first domain having a first align men direction, and a second domain having a second alignment direction. 14. The manufacturing method of claim 7 , further, before combining the first substrate and the second substrate, comprising: forming a second alignment base film aligned on the second substrate so as to have a pretilt angle; forming a second reactive mesogen film containing reactive mesogen on the second alignment base film; and after forming the liquid crystal layer, polymerizing the reactive mesogens within the second reactive mesogen film in a state in which the liquid crystals are aligned to have an arrangement state according to the electric field simultaneously with polymerizing the reactive mesogens within the first reactive mesogen film to thereby form a second alignment control film including polymerized mesogens, wherein the polymerized mesogens in the second alignment control film have a pretilt angle corresponding to the arrangement state of liquid crystals within the liquid crystal layer.