Double Λ loop of four interlinked parametric interactions Qing Xu Xiangming Hu 10.6084/m9.figshare.1012771.v1 https://iop.figshare.com/articles/figure/_Double_loop_of_four_interlinked_parametric_interactions/1012771 <p><strong>Figure 4.</strong> Double Λ loop of four interlinked parametric interactions. Each of the field reservoirs <em>b</em><sub>1, 2</sub> interacts with the noninteracting parts (<em>a</em>, <em>c</em>) of the hybrid system in the Λ configuration, one wing of which is the two-mode squeezing interaction (double solid line with double-ended arrows) and the other is the beam–splitter interaction (dashed line with a single-ended arrow). The two different kinds of interactions interlink alternately.</p> <p><strong>Abstract</strong></p> <p>We show that it is possible to use an atom–cavity reservoir to prepare the two-mode squeezed and entangled states of a hybrid system of an atomic ensemble and an optical field, which do not directly interact with each other. The essential mechanism is based on the combined effect of a two-mode squeezing interaction and a beam–splitter interaction between the system and the reservoir. The reservoir mechanism is important for quantum networking in that it allows an interface between a localized matter-based memory and an optical carrier of quantum information without direct interaction.</p> 2013-09-05 00:00:00 quantum information interactions interlink reservoir mechanism noninteracting parts quantum networking Atomic Physics Molecular Physics