Optical film

What is claimed is: 1. An optical film, comprising a first structured major surface, a second major surface opposite to the first structured major surface and a reference plane between the first structured major surface and the second major surface, wherein the reference plane is substantially perpendicular to the thickness direction of the optical film, wherein the first structured major surface comprises a first prism and a second prism wherein the first prism has a first lateral surface and a second lateral surface intersecting to form a first ridge extending substantially along a first direction, and the second prism has a third lateral surface and a fourth lateral surface intersecting to form a second ridge extending substantially along the first direction, wherein the second lateral surface of the first prism is adjacent to the the third lateral surface of the second prism, wherein the first ridge of the first prism has a first height relative to the reference plane and the second ridge of the second prism has a second height relative to the reference plane, wherein the first height of the first ridge of the first prism varies along the first direction, wherein the maximum of the first height is larger than the maximum of the second height. 2. The optical film according to claim 1 , wherein the first structured major surface further comprises a third prism having a fifth lateral surface and a sixth lateral surface intersecting to form a third ridge extending substantially along the first direction wherein the first prism is between the second prism and the third prism, wherein the third ridge of the third prism has a third height relative to the reference plane, wherein the maximum of the first height is larger than the maximum of the third height. 3. The optical film according to claim 1 , wherein the maximum of the first height is larger than the maximum of the second height so as to reduce the occurrence of the optical coupling. 4. The optical film according to claim 1 , wherein the first height of the first ridge of the first prism smoothly varies along the first direction. 5. The optical film according to claim 4 , wherein the pitch between the first prism and the second prism is 24˜60 μm. 6. The optical film according to claim 1 , wherein the second height of the second ridge of the second prism varies along the first direction, wherein the maximum of the first height is larger than the maximum of the second height. 7. The optical film according to claim 6 , wherein the minimum of the first height is larger than the maximum of the second height. 8. The optical film according to claim 6 , wherein the first structured major surface comprises a third prism having a fifth lateral surface and a sixth lateral surface intersecting to form a third ridge extending substantially along the first direction, wherein the first prism is between the second prism and the third prism, wherein a third ridge of the third prism has a third height relative to the reference plane, wherein the third height of the third ridge of the third prism varies along the first direction, wherein the maximum of the first height is larger than the maximum of the third height. 9. A brightness enhancement film, comprising a first structured major surface, a second major surface opposite to the first structured major surface and a reference plane between the first structured major surface and the second major surface, wherein the reference plane is substantially perpendicular to the thickness direction of the optical film, wherein the first structured major surface comprises a first prism and a second prism, wherein the first prism has a first lateral surface and a second lateral surface and the second prism has a third lateral surface and a fourth lateral surface, wherein the first lateral surface and the second lateral surface of the first prism intersect to form a first ridge extending substantially along a first direction, the second lateral surface of the first prism is adjacent to the the third lateral surface of the second prism, and the third lateral surface and the fourth lateral surface of the first prism intersect to form a second ridge extending substantially along the first direction, wherein the first ridge of the first prism has a first height relative to the reference plane and the second ridge of the second prism has a second height relative to the reference plane, wherein the first height of the first ridge of the first prism varies along the first direction and the second height of the second ridge of the second prism varies along the first direction, wherein the maximum of the first height is larger than the maximum of the second height. 10. The brightness enhancement film according to claim 9 , wherein the minimum of the first height is larger than the maximum of the second height. 11. The brightness enhancement film according to claim 9 , wherein the first structured major surface comprises a third prism having a fifth lateral surface and a sixth lateral surface intersecting to form a third ridge extending substantially along the first direction, wherein the first prism is between the second prism and the third prism, wherein a third ridge of the third prism has a third height relative to the reference plane, wherein the third height of the third ridge of the third prism varies along the first direction, wherein the maximum of the first height is larger than the maximum of the third height. 12. The brightness enhancement film according to claim 9 , wherein the pitch between the first prism and the second prism is 10˜200 μm. 13. The brightness enhancement film according to claim 9 , wherein the pitch between the first prism and the second prism is 24˜60 μm. 14. The brightness enhancement film according to claim 9 , wherein the maximum of the first height is larger than the maximum of the third height so as to reduce the occurrence of the optical coupling. 15. An optical film comprising a first structured major surface, a second major surface opposite to the first structured major surface and a reference plane between the first structured major surface and the second major surface, wherein the reference plane is substantially perpendicular to the thickness direction of the optical film, wherein the first structured major surface comprises a first prism and a second prism, wherein the first prism has a first lateral surface and a second lateral surface intersecting to form a first ridge extending substantially along a first direction, and the second prism has a third lateral surface and a fourth lateral surface intersecting to form a second ridge extending substantially along the first direction, wherein the second lateral surface of the first prism is adjacent to the third lateral surface of the second prism, wherein a first ridge of the first prism has a first height relative to the reference plane and a second ridge of the second prism has a second height relative to the reference plane, wherein the first height of the first ridge of the first prism varies along the first direction and the second height of the second ridge of the second prism varies along the first direction, wherein the maximum of the first height is larger than the maximum of the second height, wherein the second ridge of the second prism comprises a plurality of elevating portions and a plurality of non-elevating portions interleaved with the plurality of elevating portions, wherein each of the plurality of non-elevating portions has a pre-configured length along the first direction with the constant second height so as to enhance the brightness of the optical film.