Entanglement Transfer and C-Not Gate Implemented in A Fiber Connected 3-Atom System

Abstract

A robust scheme for unknown entangled state transfer and C-Not gate implemented between two spatially separated atoms is proposed. It is shown that, in the effective three-atom Ising model, two-atom unknown entangled state can be transferred from one pair of atoms to another deterministically by only repeating a simple operation of turning on/off local laser field applied on atom for two times at controlling time π20. The whole time cost is less than 3π20. The successful probability and the fidelity are almost 100% for small atomic spontaneous emission rate. Deterministic two-atom C-Not gate can also be implemented in this model by just turning on/off the local laser field applied on the single target atom and leaving the controlling atom in its cavity alone for a while. The whole time cost is less than π20+3π 2g2. It is demonstrated that the scheme is insensitive to cavity leakage and fiber loss.