Patent ID: 9354481
Filing Date: 2016-05-31
CPC Classification: G02F

Claim Text:
1. A liquid crystal element comprising: a first substrate and a second substrate subjected to an orientation process on one surface of each of the first substrate and the second substrate, the first substrate and the second substrate being disposed facing each other; a liquid crystal layer provided between the first substrate and the second substrate; and an electric field applying section that applies an electric field to the liquid crystal layer, the electric field applying section comprising a first electrode provided on one surface side of the first substrate, a second electrode provided on one surface side of the first substrate, away from the first electrode, and a common electrode provided on one surface side of the second substrate so that at least a portion thereof is superimposed with the first electrode and the second electrode; wherein: the first substrate and the second substrate are disposed with an angle formed by the respective orientation processing directions greater than or equal to 0° and less than 40°, making it possible to achieve a first orientation state that includes a twist in the liquid crystal molecules of the liquid crystal layer by an orientation regulating force from the orientation process, the liquid crystal layer includes chiral material capable of generating a second orientation state that includes a twist different from that of the first orientation state in the liquid crystal molecules of the liquid crystal layer, the liquid crystal layer transitions from the second orientation state to the first orientation state by the application of an electric field in a layer thickness direction of the liquid crystal layer by the electric field applying section, and transitions from the first orientation state to the second orientation state by the application of an electric field in a direction perpendicular to the layer thickness direction by the electric field applying section, and further, after transitioning to the second orientation state, by applying an electric field of the direction perpendicular to the layer thickness direction by the electric field applying section, a continuous orientation change regarded as an elastic deformation occurs in accordance with a strength of the electric field, and returns to the second orientation state caused by the elastic deformation when the electric field is subsequently released, and an angle between (i) a longitudinal direction of a liquid crystal molecule located substantially at a center of the layer thickness direction of the liquid crystal layer in the second orientation state, and (ii) the direction of the electric field applied by the electric field applying section in the direction perpendicular to the layer thickness direction, is within a range greater than 0° and less than or equal to 45°.