Engineering three-dimensionalmaximally entangled states for two modes in a bimodalcavity

Yang Zhen-Biao; Su Wan-Jun

doi:10.1088/1009-1963/16/2/025

Chinese Physics

Engineering three-dimensional maximally entangled states for two modes in a bimodal cavity

Yang Zhen-Biao¹ and Su Wan-Jun¹

Published under licence by IOP Publishing Ltd
Chinese Physics, Volume 16, Number 2 Citation Yang Zhen-Biao and Su Wan-Jun 2007 Chinese Phys. 16 435 DOI 10.1088/1009-1963/16/2/025

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¹ Department of Electronic Science and Applied Physics Fuzhou University, Fuzhou 350002, China

Dates

Received 29 May 2006

Abstract

An alternative scheme is proposed for engineering three-dimensional maximally entangled states for two modes of a superconducting microwave cavity. In this scheme, an appropriately prepared four-level atom is sent through a bimodal cavity. During its passing through the cavity, the atom is coupled resonantly with two cavity modes simultaneously and addressed by a classical microwave pulse tuned to the required transition. Then the atomic states are detected to collapse two modes onto a three-dimensional maximally entangled state. The scheme is different from the previous one in which two nonlocal cavities are used. A comparison between them is also made.

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