Ground state and persistent oscillations in the quantum East model

Abstract

For the 1D quantum East model with open boundaries, we show that in the limit s -∞, the ground state is accurately captured by a simple spin-coherent product state. We further identify a low-entanglement excited eigenstate that differs from the ground state only by a π-rotation of the boundary spin, remaining well approximated by a spin-coherent state. For a range of -∞<s<0, the edge-coherent product state overlaps with two eigenstates separated by a size-independent energy gap, leading to persistent coherent oscillations of both global and local observables in the thermodynamic limit. These oscillations originate from boundary physics and are distinct from quantum many-body scars or hypercube-like Fock-space mechanisms.