Geometry-Driven Lattice of Photonic Spin-Meron Tubes in Free Space

Abstract

We theoretically demonstrate the first photonic spin-meron tube lattice in free space using spin-angular momentum vectors. Square-block diffraction creates C4-symmetric beams with π/2 phase steps. Non-paraxial spin-orbit coupling then forms finite-length meron tubes (Nsk ≈ 1/2, > 25,λ). Extending the formalism, we show that C3 geometry of a triangular block yields a spin-skyrmion tube. Stratton-Chu theory and full-vectorial finite-difference time-domain calculations both support this material-agnostic, geometry-driven approach as a platform to explore symmetry-driven free-space topology.