Charles H. Bennett, Stephen J. Wiesner
Physical Review Letters
We survey progress in understanding quantum information in terms of equivalences, reducibilities, and asymptotically achievable rates for transformations among nonlocal resources such as classical communication, entanglement, and particular quantum states or channels. In some areas, eg source coding, there are straightforward parallels to classical information theory; in others eg entanglement-assisted communication, new effects and tradeoffs appear that are beginning to be fairly well understood, or the remaining uncertainty has become focussed on a few simple open questions, such as conjectured additivity of the Holevo capacity. In still other areas, e.g. the role of the back communication and the classification of tripartite entanglement, much remains unknown, and it appears unlikely that an adequate description exists in terms of a finite number of resources. © Rinton Press.
Charles H. Bennett, Stephen J. Wiesner
Physical Review Letters
Charles H. Bennett, Aram W. Harrow, et al.
Physical Review A - AMO
Charles H. Bennett, Gilles Brassard, et al.
Physical Review Letters
Charles H. Bennett
Meeting the Entropy Challenge - International Thermodynamics Symposium 2007