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    A novel waveguide-connected power splitter (WPS) was developed using a multi-dimension search algorithm. This innovative device efficiently splits optical signals into fundamental transverse electric (TE0) and TE1 modes with balanced output.

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    Area of Science:

    • Photonics and optical engineering
    • Integrated optics
    • Waveguide devices

    Background:

    • Efficient optical signal splitting is crucial for various photonic applications.
    • Existing power splitters often face limitations in mode control and fabrication complexity.
    • Developing devices that can handle multiple optical modes is an ongoing challenge.

    Purpose of the Study:

    • To design, fabricate, and characterize a novel different-mode (waveguide-connected) power splitter ((W)PS).
    • To achieve simultaneous generation of fundamental transverse electric (TE0) and TE1 modes with a 1:1 output balance.
    • To optimize device performance, fabrication robustness, and reduce design time.

    Main Methods:

    • Development of a novel multi-dimension direct-binary-search algorithm.
    • Systematic search across state, rotation, shape, and size dimensions for parameter optimization.
    • Fabrication and characterization of the designed (W)PS using standard photonic fabrication techniques.

    Main Results:

    • The (W)PS successfully generates TE0 and TE1 modes with a 1:1 output balance.
    • Significantly shortened adiabatic taper length compared to traditional power splitters (PS).
    • Measured insertion loss < 0.9 dB and crosstalk < -17.8 dB across 1540-1560 nm.
    • Demonstrated potential for extension to multiple output ports with tunable tap couplers.

    Conclusions:

    • The novel multi-dimension search algorithm enables efficient design of complex photonic devices like the (W)PS.
    • The developed (W)PS offers superior performance in mode splitting and reduced footprint.
    • The device architecture is adaptable for advanced multi-port and multi-mode optical signal routing.