Affiliation:
1. Department of Physics University of Malakand Chakdara Dir Lower KP 18800 Pakistan
2. Department of Physics Government Degree College Lund Khwar Mardan 23130 Pakistan
3. National Institute of Lasers and Optronics College Pakistan Institute of Engineering and Applied Sciences Nilore Islamabad 45650 Pakistan
4. Center for Computational Material Sciences University of Malakand Chakdara Dir Lower KP 18800 Pakistan
Abstract
AbstractThe quantized momentum eigenstates of neutral atoms offer high resistance to decoherence and thus suggests a viable alternative for quantum informatics tasks including teleportation. In this work, a scheme is suggested to teleport an unknown superposition of two distinct external momentum states of a neutral atom onto the similar momentum states of a distant atom at the receiving end through the off‐resonant atomic Bragg diffraction (ABD). In order to teleport this unknown state from the sender, that is, Alice, to the receiver, that is, Bob, a pre‐existing entangled link formed through a high‐Q cavity at Alice's end and momentum states of a neutral atom at the Bob's end are utilized. Further, while citing the realistic experimental parameters, it is demonstrated that the proposal can easily be implemented experimentally under the prevailing cavity‐QED atom‐field research scenario. The proposal is also generalized to cover the teleportation of the multipartite entangled momenta states and the case of multipartite GHZ entangled states is elucidated in details. However, the procedure is generic and can be extended to cover the teleportation schematics for any arbitrary atomic momenta states.
Subject
General Physics and Astronomy