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1. Mode-evolution-based ultra-broadband polarization beam splitter using adiabatically tapered extreme skin-depth waveguide

   https://doi.org/10.1364/OL.434110  

   Mia, Md Borhan ; Ahmed, Syed Z. ; Jaidye, Nafiz ; Ahmed, Ishtiaque ; Kim, Sangsik ( September 2021 , Optics Letters)

   We present an ultra-broadband silicon photonic polarization beam splitter (PBS) using adiabatically tapered extreme skin-depth (eskid) waveguides. Highly anisotropic metamaterial claddings of the eskid waveguides suppress the crosstalk of transverse-electric (TE) mode, while the large birefringence of the eskid waveguide efficiently cross-couples the transverse-magnetic (TM) mode. Two eskid waveguides are adiabatically tapered to smoothly translate TM mode to the coupled port via mode evolution while keeping the TE mode in the through port. The tapered cross-section of the eskid PBS was designed numerically, achieving a large bandwidth at 1400–1650 nm with extinction ratios$><\#comment/>20\mathrm{d}\mathrm{B}$. We experimentally demonstrated the tapered-eskid PBS and confirmed its broad bandwidth at 1490–1640 nm, limited by laser bandwidth. With its mode evolution, the tapered-eskid PBS is tolerant to fabrication imperfections and should be crucial for controlling polarizations in photonic circuits.

    

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2. Integrated polarization-free Bragg filters with subwavelength gratings for photonic sensing

   https://doi.org/10.1364/OE.504043  

   Pimbi, Daniel ; Mia, Md Borhan ; Jaidye, Nafiz ; Ahmed, Ishtiaque ; Hasan, Mehedi ; Ahmed, Syed Z. ; Kim, Sangsik ( January 2024 , Optics Express)

   We present polarization-free Bragg filters having subwavelength gratings (SWGs) in the lateral cladding region. This Bragg design expands modal fields toward upper cladding, resulting in enhanced light interaction with sensing analytes. Two device configurations are proposed and examined, one with index-matched coupling between transverse electric (TE) and transverse magnetic (TM) modes and the other one with hybrid-mode (HM) coupling. Both configurations introduce a strong coupling between two orthogonal modes (either TE-TM or HM₁-HM₂) and rotate the polarization of the input wave through Bragg reflection. The arrangements of SWGs help to achieve two configurations with different orthogonal modes, while expanding modal profiles toward the upper cladding region. Our proposed SWG-assisted Bragg gratings with polarization independency eliminate the need for a polarization controller and effectively tailor the modal properties, enhancing the potential of integrated photonic sensing applications.

    

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3. Anisotropic leaky-like perturbation with subwavelength gratings enables zero crosstalk

   https://doi.org/10.1038/s41377-023-01184-5  

   Kabir, Md Faiyaz ; Mia, Md Borhan ; Ahmed, Ishtiaque ; Jaidye, Nafiz ; Ahmed, Syed Z. ; Kim, Sangsik ( June 2023 , Light: Science & Applications)

   Electromagnetic coupling via an evanescent field or radiative wave is a primary characteristic of light, allowing optical signal/power transfer in a photonic circuit but limiting integration density. A leaky mode, which combines both evanescent field and radiative wave, causes stronger coupling and is thus considered not ideal for dense integration. Here we show that a leaky oscillation with anisotropic perturbation rather can achieve completely zero crosstalk realized by subwavelength grating (SWG) metamaterials. The oscillating fields in the SWGs enable coupling coefficients in each direction to counteract each other, resulting in completely zero crosstalk. We experimentally demonstrate such an extraordinarily low coupling between closely spaced identical leaky SWG waveguides, suppressing the crosstalk by ≈40 dB compared to conventional strip waveguides, corresponding to ≈100 times longer coupling length. This leaky-SWG suppresses the crosstalk of transverse–magnetic (TM) mode, which is challenging due to its low confinement, and marks a novel approach in electromagnetic coupling applicable to other spectral regimes and generic devices.

    

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4. Compact nonvolatile polarization switch using an asymmetric Sb 2 Se 3 -loaded silicon waveguide

   https://doi.org/10.1364/OE.482817  

   Jin, Huimin ; Niu, Lei ; Zheng, Jiajiu ; Xu, Peipeng ; Majumdar, Arka ( January 2023 , Optics Express)

   We propose and simulate a compact (∼29.5 µm-long) nonvolatile polarization switch based on an asymmetric Sb₂Se₃-clad silicon photonic waveguide. The polarization state is switched between TM₀and TE₀mode by modifying the phase of nonvolatile Sb₂Se₃between amorphous and crystalline. When the Sb₂Se₃is amorphous, two-mode interference happens in the polarization-rotation section resulting in efficient TE₀-TM₀conversion. On the other hand, when the material is in the crystalline state, there is little polarization conversion because the interference between the two hybridized modes is significantly suppressed, and both TE₀and TM₀modes go through the device without any change. The designed polarization switch has a high polarization extinction ratio of > 20 dB and an ultra-low excess loss of < 0.22 dB in the wavelength range of 1520-1585 nm for both TE₀and TM₀modes.

    

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5. Polarization-independent photonic Bragg grating filter with cladding asymmetry

   https://doi.org/10.1364/OL.479600  

   Pimbi, Daniel ; Hasan, Mehedi ; Borhan Mia, Md ; Jaidye, Nafiz ; Kim, Sangsik ( February 2023 , Optics Letters)

   A photonic Bragg grating is a fundamental building block that reflects the direction of wave propagation through spatial phase modulation and can be implemented using sidewall corrugation. However, due to the asymmetric aspect ratio of a waveguide cross section, typical Bragg gratings exhibit a strong polarization sensitivity. Here, we show that photonic Bragg gratings with cladding asymmetry can enable polarization-independent notch filters by rotating input polarizations. Such Bragg gratings strongly couple transverse electric (TE) and transverse magnetic (TM) modes propagating in opposite directions, filtering the input signal and reflecting the rotated mode. We analyzed this polarization-rotating Bragg grating using the coupled-mode theory and experimentally demonstrated it on a silicon-on-insulator platform. Our device concept is simple to implement and compatible with other platforms, readily available as polarization transparent Bragg components.

    

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