Entanglement recycling and generalized teleportation
Seminar Room 1, Newton Institute
AbstractCo-authors: Jonathan Oppenheim (UCL), Michal Horodecki (U of Gdansk)
I will introduce new teleportation protocols which are generalizations of the original teleportation protocols that use the Pauli group and the port-based teleportation protocols, introduced by Hiroshima and Ishizaka, that use the symmetric permutation group. I will show sufficient conditions for a set of operations, to give rise to a teleportation protocol and provide examples of such schemes. This generalization leads to protocols with novel properties and is needed to push forward new schemes of computation based on them. Port-based teleportation protocols and our generalizations use a large resource state consisting of N singlets to teleport only a single qubit state reliably. We provide two distinct protocols which recycle the resource state to teleport multiple states with error linearly increasing with their number. The first protocol consists of sequentially teleporting qubit states, and the second teleports them in a bulk.
If it doesn't, something may have gone wrong with our embedded player.
We'll get it fixed as soon as possible.