摘要We present a scheme to generate entangled state of two multilevel atoms in a high-Q optical cavity. In the protocol, the selective atom-field interaction is highly controlled, which can yield a resonant interaction inside one selected atom-field subspace and leave the others in a highly dispersive regime. The atomic spontaneous emission is efficiently suppressed via the large atom-field detuning. Simultaneously, the proposal only requires commonly addressing on atoms inside the cavity, which reduces the difficulties of experiment.
Abstract:We present a scheme to generate entangled state of two multilevel atoms in a high-Q optical cavity. In the protocol, the selective atom-field interaction is highly controlled, which can yield a resonant interaction inside one selected atom-field subspace and leave the others in a highly dispersive regime. The atomic spontaneous emission is efficiently suppressed via the large atom-field detuning. Simultaneously, the proposal only requires commonly addressing on atoms inside the cavity, which reduces the difficulties of experiment.
CHEN Zhi-Hua**;LIN Xiu-Min
. Generating Entangled States of Multilevel Atoms through a Selective Atom-Field Interaction[J]. 中国物理快报, 2011, 28(1): 10304-010304.
CHEN Zhi-Hua**, LIN Xiu-Min
. Generating Entangled States of Multilevel Atoms through a Selective Atom-Field Interaction. Chin. Phys. Lett., 2011, 28(1): 10304-010304.
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