Liquid crystal waveguide for dynamically controlling polarized light
First Claim
1. A waveguide for controllably altering the optical path length of TE light traveling through the waveguide along a propagation direction, comprising:
- a core for guiding the TE light through the waveguide;
at least one cladding having liquid crystal molecules disposed therein, the liquid crystal molecules having longitudinal axes, the at least one cladding adjacent the core;
an alignment layer adjacent to the at least one cladding, the alignment layer initially aligning at least a portion of the liquid crystal molecules in an initial orientation with their longitudinal axes oriented at an out-of-plane tilt angle of 0 to 90 degrees, and their longitudinal axes oriented at an in-plane angle in the range of approximately 5 to 90 degrees measured relative to the propagation direction; and
a pair of electrodes for receiving a voltage for creating an electric field between the electrodes and through the at least on cladding, the electric field being oriented substantially perpendicular to the propagation direction of the TE light traveling through the waveguide;
wherein as the voltage is applied to the pair of electrodes, alignment of the liquid crystals changes so the optical phase delay changes for the TE light traveling through the waveguide;
wherein thickness of the core is sized such that geometric birefringence is sufficiently high at voltages between 0 and 200 volts such that an index of refraction for the TE light is larger than an index of refraction for TM polarized light to avoid TE to TM conversion.
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Abstract
Waveguide and associated methods for controlling an optical phase delay (OPD) of TE polarized light traveling along a propagation direction through a waveguide are disclosed. In one example, the method includes providing the waveguide with a core, at least one cladding; initially aligning at least a portion of the liquid crystal molecules in an initial orientation with their longitudinal axes oriented at an out-of-plane tilt angle, and their longitudinal axis oriented at an in-plane angle; providing the waveguide with a pair of electrodes for receiving a control signal; and applying the control signal to the pair of electrodes to rotate the liquid crystal molecules from the initial orientation, thereby controlling the optical phase delay of the TE polarized light traveling through the waveguide.
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Citations
11 Claims
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1. A waveguide for controllably altering the optical path length of TE light traveling through the waveguide along a propagation direction, comprising:
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a core for guiding the TE light through the waveguide; at least one cladding having liquid crystal molecules disposed therein, the liquid crystal molecules having longitudinal axes, the at least one cladding adjacent the core; an alignment layer adjacent to the at least one cladding, the alignment layer initially aligning at least a portion of the liquid crystal molecules in an initial orientation with their longitudinal axes oriented at an out-of-plane tilt angle of 0 to 90 degrees, and their longitudinal axes oriented at an in-plane angle in the range of approximately 5 to 90 degrees measured relative to the propagation direction; and a pair of electrodes for receiving a voltage for creating an electric field between the electrodes and through the at least on cladding, the electric field being oriented substantially perpendicular to the propagation direction of the TE light traveling through the waveguide; wherein as the voltage is applied to the pair of electrodes, alignment of the liquid crystals changes so the optical phase delay changes for the TE light traveling through the waveguide; wherein thickness of the core is sized such that geometric birefringence is sufficiently high at voltages between 0 and 200 volts such that an index of refraction for the TE light is larger than an index of refraction for TM polarized light to avoid TE to TM conversion. - View Dependent Claims (2, 3, 4, 5)
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6. A waveguide for controllably altering the optical path length of TE light traveling through the waveguide along a propagation direction, comprising:
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a core for guiding the TE light through the waveguide; at least one cladding having liquid crystals molecules disposed therein, the liquid crystal molecules having longitudinal axes; an alignment layer adjacent to the at least one cladding, the alignment layer initially aligning at least a portion of the liquid crystal molecules in an initial orientation; and a pair of electrodes positioned about the core, the pair of electrodes for receiving a control signal for creating an electric field between the electrodes; wherein as the control signal is applied to the pair of electrodes, alignment of the liquid crystals changes to a second orientation in order to alter the optical phase delay for the TE light traveling through the waveguide, the second orientation characterized by at least a portion of the liquid crystal molecules aligned with their longitudinal axes oriented at an angle of 0 to 90 degrees relative to a plane of the waveguide, and with their longitudinal axis oriented at an angle in the range of approximately 5 to 90 degrees measured relative to the propagation direction; wherein thickness of the core is sized such that geometric birefringence is sufficiently high at voltages between 0 and 200 volts such that an index of refraction for the TE light is larger than an index of refraction for TM polarized light to avoid TE to TM conversion. - View Dependent Claims (7, 8, 9, 10, 11)
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Specification