We point out a symmetry exhibited by pairs of entangled states and discuss its possible applications in quantum information. More specifically, we consider quadripartite systems prepared in bipartite product states of the form ∣Ψ>=∣ψ>12⊗∣ψ>34 and let the uncorrelated subsystems 14 and 23 interact by a given unitary U14⊗U23: we show that the entanglement between the noninteracting subsystems 12 and 34 may induce transparency, i.e. makes ∣Ψ> an eigenstate of the unitary. We investigate the occurrence of this phenomenon both in continuous variable and qubit systems, and discuss its possible applications to bath engineering, double swapping and remote inversion.
@article{arxiv.0905.1560,
title = {Entanglement induced transparency and applications},
author = {Stefano Olivares and Matteo G. A. Paris},
journal= {arXiv preprint arXiv:0905.1560},
year = {2010}
}