Liquid crystal light valve with birefringence compensation
First Claim
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1. A light valve for controlling light propagating along an axis of propagation, said light valve comprising:
- a pair of optically birefringent layers, each of said layers having a front surface and a back surface facing the back surface of the other layer, said front and back surfaces being nonparallel to said propagation axis;
each of said layers having a major optical axis corresponding to parallel refractive indices exhibited to radiation components polarized in a direction parallel to said optical axis and perpendicular refractive indices exhibited to radiation components polarized in a direction perpendicular to said optical axis;
wherein said optical axis of one of said two layers at its back surface is substantially perpendicular to the optical axis of the other of said two layers at the back surface of said other layer and said optical axis of one of said two layers at its front surface is substantially perpendicular to the optical axis of the other of said two layers at the front surface of said other layer;
means for polarizing light incident on said front surface of one of said layers so that said incident light may resolve into said parallel and perpendicular radiation components in said one layer and so that a total phase shift of substantially zero is introduced between said parallel and perpendicular radiation components as they travel along said propagation axis through both said layers;
wherein said optical axis of each of said layers is oriented in the same direction throughout said layer.
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Abstract
This invention is a light valve using birefringent nematic liquid crystals in which compensation for residual birefringence is achieved by passing light through two separate liquid crystal layers having their major optical axes aligned perpendicular to one another at the interface between the two liquid crystal layers.
34 Citations
5 Claims
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1. A light valve for controlling light propagating along an axis of propagation, said light valve comprising:
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a pair of optically birefringent layers, each of said layers having a front surface and a back surface facing the back surface of the other layer, said front and back surfaces being nonparallel to said propagation axis; each of said layers having a major optical axis corresponding to parallel refractive indices exhibited to radiation components polarized in a direction parallel to said optical axis and perpendicular refractive indices exhibited to radiation components polarized in a direction perpendicular to said optical axis; wherein said optical axis of one of said two layers at its back surface is substantially perpendicular to the optical axis of the other of said two layers at the back surface of said other layer and said optical axis of one of said two layers at its front surface is substantially perpendicular to the optical axis of the other of said two layers at the front surface of said other layer; means for polarizing light incident on said front surface of one of said layers so that said incident light may resolve into said parallel and perpendicular radiation components in said one layer and so that a total phase shift of substantially zero is introduced between said parallel and perpendicular radiation components as they travel along said propagation axis through both said layers; wherein said optical axis of each of said layers is oriented in the same direction throughout said layer.
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2. A light valve for controlling light propagating along an axis of propagation, said light valve comprising:
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a pair of optically birefringent layers, each of said layers having a front surface and a back surface facing the back surface of the other layer, said front and back surfaces being nonparallel to said propagation axis; each of said layers having a major optical axis corresponding to parallel refractive indices exhibited to radiation components polarized in a direction parallel to said optical axis and perpendicular refractive indices exhibited to radiation components polarized in a direction perpendicular to said optical axis; wherein said optical axis of one of said two layers at its back surface is substantially perpendicular to the optical axis of the other of said two layers at the back surface of said other layer and said optical axis of one of said two layers at its front surface is substantially perpendicular to the optical axis of the other of said two layers at the front surface of said other layer; and means for polarizing light incident on said front surface of one of said layers so that said incident light may resolve into said parallel and perpendicular radiation components in said one layer and so that a total phase shift of substantially zero is introduced between said parallel and perpendicular radiation components as they travel along said propagation axis through both said layers; wherein one of said birefringent layers comprises a liquid crystal layer including a plurality of nematic molecules aligned so as to define the optical axis of said one layer, said light valve further comprising; means for at least partially tilting said alignment of at least some of said nematic molecules in response to an image input; and an analyzer, said analyzer and polarizing means each having a polarization axis perpendicular to that of the other and being non-parallel to the optical axis of each of said two birefringent layers. - View Dependent Claims (4)
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3. A light valve for controlling light propagating along an axis of propagation, said light valve comprising:
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a pair of optically birefringent layers, each of said layers having a front surface and a back surface facing the back surface of the other layer, said front and back surfaces being nonparallel to said propagation axis; each of said layers having a major optical axis corresponding to parallel refractive indices exhibited to radiation components polarized in a direction parallel to said optical axis and perpendicular refractive indices exhibited to radiation components polarized in a direction perpendicular to said optical axis; wherein said optical axis of one of said two layers at its back surface is substantially perpendicular to the optical axis of the other of said two layers at the back surface of said other layer and said optical axis of one of said two layers at its front surface is substantially perpendicular to the optical axis of the other of said two layers at the front surface of said other layer; and means for polarizing light incident on said front surface of one of said layers so that said incident light may resolve into said parallel and perpendicular radiation components in said one layer and so that a total phase shaft of substantially zero is introduced between said parallel and perpendicular radiation components as they travel along said propagation axis through both said layers; wherein said polarizing means comprises a polarizer having its axis of polarization oriented in a direction not parallel to said major optical axis. - View Dependent Claims (5)
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Specification