Scattering State Theory for One-dimensional Floquet Lattices

Abstract

We develop a Floquet transfer matrix method to solve scattering in extended 1D Floquet lattices, uncovering an underlying conjugate symplectic structure that enforces current conservation across sidebands. By engineering a spatial adiabatic boundary, we suppress multi-channel sideband interference, allowing us to establish a direct mapping between the bulk winding number $C$ and a rigid shift in the transmission energy windows--quantified as $C\hbarω$. We further propose two experimental realizations: cold-atom Bragg scattering to directly verify the transmission shift, and surface-acoustic-wave-induced transport demonstrating the quantized zero-bias current plateau.