Entanglement transfer between giant atoms in waveguide-QED systems

Abstract

We investigate the entanglement transfer between giant atoms in waveguide-QED systems. The system consists of two pairs of two-level giant atoms, ab and cd, each independently coupled to its respective one-dimensional waveguide. Initially, entangled states are stored in atom pair ac. There we consider three giant atom coupling configurations: separated, braided, and nested. For comparison, the entanglement transfer for small atoms configuration is also studied here. We focus on the entanglement transfer from atom pair ac to atoms pair bd and atom pair ab in these four coupling configurations. It is shown that the transfer of entanglement in each coupling configuration strongly depends on phase shift. In particular, the braided configuration demonstrates superior performance in entanglement transfer. For the entanglement transfer from atom pair ac to atom pair bd, complete entanglement transfer is presented in braided configuration, a behavior not found in small atom or other giant atom configurations. For the entanglement transfer from atom pair ac to atom pair ab, although the maximum entanglement transferred to atom pair ab in the braided configuration is half of that one to atom pair bd, it is still higher than that in the small atom, separated, and nested configurations. This study lays the foundation for entanglement transfer between giant atoms in waveguide-QED platforms.