Design and Optimization of Polarization-Maintaining Hollow-Core Anti-Resonant Fibers Based on Pareto Multi-Objective Algorithms Article Swipe

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Yingwei Qin , Xutao Lu , Yunxiao Ren , Zhi‐Ling Li ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.3390/photonics12100993 · OA: W4415045256

This work proposes a novel polarization-maintaining hollow-core anti-resonant fiber structure characterized by high birefringence and low transmission loss. To address the inherent trade-off between birefringence and confinement loss, a Pareto-front-based multi-objective optimization algorithm is introduced into the geometrical design of the ARF. The optimal fiber design achieves a birefringence exceeding 1×10−4 and a confinement loss of approximately 1 dB/m at the telecommunication wavelength of 1.55 μm. In particular, the asymmetric wall thickness configuration further improves the trade-off, enabling confinement loss as low as 0.15 dB/m while maintaining birefringence on the order of 1×10−4. This approach significantly reduces computational cost and exhibits strong potential for applications in polarization-maintaining communications, precision sensing, and high-power laser delivery.