Optimization of wavelength selective switch using phase control of liquid crystal spatial light modulator

What is claimed is: 1. A wavelength selective switch (WSS), comprising a fiber array, wherein the fiber array comprises a plurality of ports including an input port and multiple output ports; a liquid crystal on silicon (LCoS) panel including a control board for providing selected pixel electrode voltage levels associated with displaying a hologram in the form of a phase profile configured to provide switching of a defined wavelength of an incoming optical signal between the input port and one or more of the multiple output ports; and a processor module coupled to the LCoS panel, the processor module creating an optimized phase profile for wavelength selective switching and communicating the optimized phase profile information to the LCoS panel control board, the processor module utilizes a continuous phase-only function associated with optimized beam splitting, defined as s ( x )=Σ k μ k exp[ iα k ]exp[ ikx ], where k in an integer index of each of a set of N selected output ports, α k is a numerical parameter representing a phase of a k th diffraction order, and μ k is a numerical parameter representing an amplitude of the k th diffraction order, wherein the processor module is configured to: (1) perform an iterative calculation process of η by determining a pair of dump ports to be associated with each selected output port, defining initial values of μ and α, and setting a predetermined attenuation level at the dump ports as a constraint for the iterative calculation process to create an optimized phase profile that satisfies a diffraction efficiency criteria: η = Σ k ⁢  c k  2 Σ m = - ∞ + ∞ ⁢  c m  2 where c k is a k th Fourier coefficient of the continuous phase-only function, the numerator is the sum of all selected output ports and the denominator is sum over the complete set of multiple output ports; and (2) perform phase adjustments on the optimized phase profile, including phase scaling, pixel number and order subtraction, until crosstalk at all non-selected output ports is less than a predetermined threshold level. 2. The WSS as defined in claim 1 , wherein the processor module is configured to perform phase scaling subsequent to the generation of an optimized phase profile to minimize crosstalk present at non-selected output ports by adjusting a phase period to a value slightly different from 2π. 3. The WSS as defined in claim 2 , wherein the processor module is further configured to modify a number of individual pixels associated with a phase period to further minimize crosstalk present at non-selected output ports. 4. The WSS as defined in claim 2 , wherein the processor module is further configured to identify certain non-selected ports exhibiting unacceptable cross and subtract the diffraction orders associated with these non-selected ports from the optimized phase profile.