Propagation and jamming dynamics in Heisenberg spin ladders

TL;DR

This paper studies how localized excitations propagate and jam in Heisenberg spin ladders, revealing new propagation modes and a peculiar jamming phenomenon linked to the system's spectral features.

Contribution

It introduces the analysis of propagation and jamming dynamics in Heisenberg ladders, connecting these phenomena to spectral features and effective models, and compares with similar behavior in spin chains.

Findings

Multiple propagation modes observed in spin ladders.

Identification of a jamming mode with localized excitations.

Comparison with spin-1 bilinear-biquadratic chain shows similar phenomena.

Abstract

We investigate the propagation dynamics of initially localized excitations in spin-1/2 Heisenberg ladders. We consider initial states with two overturned spins, either on neighboring sites on the same leg or on the two sites of a single rung, in an otherwise polarized (ferromagnetic) background. Compared to the corresponding dynamics in a chain (single leg), we observe several additional modes of propagation. We connect these propagation modes to features of the spectrum of the ladder system, and to different effective models corresponding to different segments of the spectrum. In addition to the regular propagation modes, we observe for one mode a peculiar `jamming' dynamics where components of the excitations remain localized in an unusual manner. A comparison with the spin-1 bilinear-biquadratic chain is developed and explored, where a similar phenomenon is shown to occur.