AI Article Synopsis
- The text discusses the development of an optical chip using CMOS Cu-interconnect technology to achieve linear polarization through a specific rod array structure.
- The chip features a square lattice arrangement of rods within a slab waveguide, leveraging the existing Cu-interconnects found in CMOS integrated circuits.
- Simulations indicate that the device can achieve a high linear polarization ratio, demonstrating the potential for mass production of passive optical chips for communication purposes using CMOS technology.
Article Abstract
The construction by CMOS Cu-interconnect fabrication technology of an optical chip that performs the function of linear polarization is described. The chip consists of three rows of a one dimensional array of rods in a square lattice structure. The rods make use of the Cu-interconnects of a CMOS IC for this optical purpose. The whole structure embedded inside a slab waveguide. The optical properties of the device in the optical communication wavelength range (1.475 microm ~ 1.625 microm) are simulated using the finite-difference-time-domain (FDTD) approach. Under double-cascaded operation, a linear polarization ratio as high as 10(6) can be achieved. Our study shows that the CMOS IC technology can be used a tool for mass fabrication of passive integrated optical chips for optical communications.
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| http://dx.doi.org/10.1364/oe.14.005250 | DOI Listing |
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Article Synopsis
- The text discusses the development of an optical chip using CMOS Cu-interconnect technology to achieve linear polarization through a specific rod array structure.
- The chip features a square lattice arrangement of rods within a slab waveguide, leveraging the existing Cu-interconnects found in CMOS integrated circuits.
- Simulations indicate that the device can achieve a high linear polarization ratio, demonstrating the potential for mass production of passive optical chips for communication purposes using CMOS technology.
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