Introduction Photonic Crystal Fibers (PCFs) have emerged as one of the most transformative innovations in the field of optical communications. Distinguished by their unique internal microstructure—typically an arrangement of air holes running longitudinally through the fiber—PCFs offer distinct advantages over traditional step-index or graded-index fibers. Their ability to confine light through mechanisms such as index […]
Introduction Orbital angular momentum (OAM) modes have emerged as a promising candidate for dramatically expanding the information-carrying capacity of optical fibers. Unlike conventional modes that carry only spin angular momentum, OAM modes possess a helical phase front characterized by an azimuthal phase dependence of the form $\exp(i\ell\phi)$, where $\ell$ is the topological charge and $\phi$ […]
Introduction Photonic crystal fibers (PCFs) have emerged as a transformative platform in modern photonics, enabling applications that extend far beyond the reach of conventional optical fibers. These microstructured fibers are distinguished by their periodic air-hole cladding, which manipulates light propagation through mechanisms such as index-guiding or photonic bandgap effects. Their versatility makes PCFs indispensable across […]
1. Introduction The pursuit of higher data rates and longer transmission distances in optical communication systems has intensified the demand for fibers that simultaneously exhibit flat dispersion and low loss. These characteristics are critical: while dispersion distorts the temporal profile of optical pulses, leading to inter-symbol interference, attenuation results in signal weakening that necessitates frequent […]
Designing Photonic Crystal Fibers for OAM Modes : Photonic crystal fibers (PCFs) represent a class of optical fibers that incorporate periodic microstructures—typically arrays of air holes in a silica matrix—to guide light through modified refractive index profiles. These structures offer highly tunable modal characteristics, which are essential in specialized applications such as nonlinear optics, sensing, […]
Introduction Orbital Angular Momentum (OAM) modes have emerged as a powerful concept in photonics and optical communications, offering a new degree of freedom for manipulating light. Unlike spin angular momentum, which is associated with polarization, OAM modes are characterized by a helical or twisted phase front, mathematically described by an azimuthal phase dependence of the […]
Introduction DeepSeek AI has swiftly emerged as a dominant force within the global artificial intelligence landscape. Founded in China, DeepSeek AI is celebrated for its open-source and cost-efficient large language models (LLMs), which directly challenge the dominance of major technology firms such as OpenAI, Google, and Meta. By offering highly capable models with freely accessible […]
Introduction In the landscape of advanced photonic technologies, the fusion of lithium niobate (LiNbO₃) with photonic crystal fibers (PCFs) marks a decisive step toward meeting the escalating demands for high-capacity and high-fidelity optical communication systems. At the center of this innovation lies the potential of transmitting high-order orbital angular momentum (OAM) modes with high purity […]
Challenges or Open Questions While COMSOL Multiphysics 6.3 brings substantial advancements, it does not fully eliminate persistent challenges inherent to high-fidelity multiphysics simulation. One significant hurdle remains the computational demands associated with large-scale or real-time simulations. Even with the inclusion of GPU acceleration, scenarios involving fully coupled nonlinear phenomena across disparate scales often require vast […]
If you’ve ever felt the drag of manual steps slowing down your simulation-prediction pipeline, you’re not alone. Engineers, researchers, and data scientists have long struggled to bridge the gap between physics-based modeling and data-driven analytics. But what if I told you there’s a way to automate this entire process — from simulation to AI prediction […]
