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LIGHTWAVE MICROSYSTEMS CORPORATION
| LIGHTWAVE MICROSYSTEMS CORPORATION Patent applications | ||
| Patent application number | Title | Published |
|---|---|---|
| 20100040328 | DISTRIBUTING OPTICAL POWER WITH A POWER BALANCE RATIO SUBSTANTIALLY CONSTANT OVER A BROADBAND OF WAVELENGTHS - Methods of using an optical device capable of distributing the optical power presented at an input to specified ratios in two output ports. The devices and methods described herein have the ability to broaden the range of wavelengths over which the splitting ratio is even, or substantially even. Methods involve achieving a desired splitting ratio over a broad or ultra-broad wavelength range. | 02-18-2010 |
| 20080279497 | METHODS TO REDUCE POLARIZATION DEPENDENT LOSS IN PLANAR LIGHTWAVE CIRCUITS - Polarization dependent loss may be reduced by providing at least one dummy waveguide or at least one dummy metal structure. Polarization dependent loss may also be reduced by imposing a mechanical force on the OIC to exert mechanical stress thereby changing at least one of the birefringence and the optical axes of at least one waveguide. And polarization dependent loss may be reduced by forming a metal heater using a first set of metal deposition parameters; forming a conductive metal structure contacting the metal heater using a second set of metal deposition parameters; and selecting the first set of metal deposition parameters and the second set of metal deposition parameters to reduce stress. | 11-13-2008 |
| 20080240655 | Method and apparatus for controlling waveguide birefringence by selection of a waveguide core width for a top cladding - A method and apparatus for controlling waveguide birefringence by selection of a waveguide core width for a tuned top clad is described herein. In one example, a dopant concentration within a top cladding material is between 3-6% (wt.). Given a tuned top cladding composition, a width of the waveguide core is pre-selected such that birefringence is minimized, i.e., a zero, or near zero. The desirable width of the waveguide core is determined by calculating the distribution of stress in the top cladding over a change in temperature. From this distribution of stress, a relationship between the polarization dependent wavelength and variable widths of the waveguide in the arrayed waveguide grating are determined. This relationship determines a zero value, or near zero value, of polarization dependent wavelength for a given range of waveguide widths. Accordingly, the width of the waveguide may be selected such that the polarization dependent wavelength is minimized. | 10-02-2008 |