Polarization independent electro-optic modulator
First Claim
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1. A polarization independent optical modulator comprising:
- polarization separating means for separating an input light beam into a first and a second orthogonally polarized light beam;
first modulating means for modulating the first polarized light beam according to an electric signal to produce a first modulated beam;
second modulating means for modulating the second polarized light beam according to the electric signal to produce a second modulated beam; and
polarization combining means for combining the first and the second modulated beam into a combined modulated beam containing orthogonally polarized modulated components.
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Abstract
A polarization insensitive electro-optic modulator is constructed by providing a polarization beamsplitter to separate an incoming light beam into two orthogonally plane polarized beams. Each of the polarized beams passes through a separate electro-optic modulator where each beam is modulated by the same data signal. After modulation the beams are combined to yield a modulated beam having modulated components that are orthogonally polarized. Not only is this device insensitive to changes in polarization of the input beam, the final modulated beam can be detected by optical receivers without regard to polarization alignment of the modulated beam and the receiver.
128 Citations
9 Claims
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1. A polarization independent optical modulator comprising:
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polarization separating means for separating an input light beam into a first and a second orthogonally polarized light beam; first modulating means for modulating the first polarized light beam according to an electric signal to produce a first modulated beam; second modulating means for modulating the second polarized light beam according to the electric signal to produce a second modulated beam; and polarization combining means for combining the first and the second modulated beam into a combined modulated beam containing orthogonally polarized modulated components. - View Dependent Claims (2, 3, 4, 5)
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6. A polarization independent optical modulator comprising:
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a first polarization beamsplitter for separating an input light beam into a first and a second orthogonally polarized light beam; a first polarization rotator for rotating one of the polarized light beams about 90 degrees; a first Mach-Zehnder modulator for modulating the first polarized light beam according to an electric signal to produce a first modulated beam; a second Mach-Zehnder modulator for modulating the second polarized light beam according to the electric signal to produce a second modulated beam; a second polarization rotator for rotating one of the modulated light beams about 90 degrees; and a second polarization beamsplitter for combining the first and the second modulated beams into a combined modulated beam containing orthogonally polarized modulated components.
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7. A polarization independent optical phase modulator comprising:
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a first polarization beamsplitter for separating an input light beam into a first and a second orthogonally polarized light beam; a first polarization rotator for rotating one of the polarized light beams about 90 degrees; a first directional coupler modulator for modulating the first polarized light beam according to an electric signal to produce a first modulated beam; a second direction coupler modulator for modulating the second polarized light beam according to the electric signal to produce a second modulated beam; and a second polarization rotator for rotating one of the modulated light beams about 90 degrees; a second polarization beamsplitter for combining the first and the second modulated beams into a combined modulated beam containing orthogonally polarized modulated components.
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8. A polarization independent optical amplitude modulator comprising:
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a first polarization insensitive beamsplitter for separating an input beam into equivalent signal and reference light beams; a signal arm for phase modulating the signal light beam, the signal arm comprising; polarization separating means for separating the light beam into a first and a second orthogonally polarized light beam; first phase modulating means for phase modulating the first polarized light beam according to an electric signal to produce a first phase modulated beam; second phase modulating means for phase modulating the second polarized light beam according to the electric signal to produce a second phase modulated beam; and polarization combining means for combining the first and the second modulated beam into a combined phase modulated beam containing orthogonally polarized phase modulated components; and a second polarization insensitive beamsplitter for combining the reference beam and the combined modulated beam for producing an output beam containing amplitude modulated components produced through interference between the signal and the reference beams. - View Dependent Claims (9)
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Specification