WSS using multiple technology switching elements
First Claim
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1. A method for directing wavelength components of an optical beam from an input port of a port array to at least one output port of the port array, comprising:
- receiving a plurality of optical beams at a plurality of ports;
arranging the plurality of optical beams received by the plurality of ports into a first polarization state;
spatially separating each of the optical beams into first and second optical beams;
magnifying each of the first and second optical beams with different magnification factors in each of two orthogonal directions defined by a first and second direction;
spatially separating the wavelength components in each of the first and second optical beams in the second direction;
directing the spatially separated wavelength components onto an LCoS element to create a plurality of astigmatic beams on the LCoS element; and
using the LCoS element to selectively direct the astigmatic optical beams to selected ones of the ports.
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Abstract
A wavelength selective switch for selectively switching optical wavelength components of an optical signal uses both LCoS and MEMs switching technologies to improve device performance. Specific performance improvements may include more ports, better spectral performance and isolation, improved dynamic crosstalk, more flexible attenuation options, integrated channel monitoring and compressed switch heights.
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Citations
3 Claims
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1. A method for directing wavelength components of an optical beam from an input port of a port array to at least one output port of the port array, comprising:
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receiving a plurality of optical beams at a plurality of ports; arranging the plurality of optical beams received by the plurality of ports into a first polarization state; spatially separating each of the optical beams into first and second optical beams; magnifying each of the first and second optical beams with different magnification factors in each of two orthogonal directions defined by a first and second direction; spatially separating the wavelength components in each of the first and second optical beams in the second direction; directing the spatially separated wavelength components onto an LCoS element to create a plurality of astigmatic beams on the LCoS element; and using the LCoS element to selectively direct the astigmatic optical beams to selected ones of the ports. - View Dependent Claims (2, 3)
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Specification