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We analyze the entanglement characteristics of three harmonic modes,which are the output fields from three cavities with an input tripartite entangled state at fundamental frequency.The entanglement properties of the input beams can be maintained after their frequencies have been up-converted by the process of second harmonic generation.We have calculated the parametric dependences of the correlation spectrum on the initial squeezing factor,the pump power,the transmission coefficient,and the normalized analysis frequency of cavity.The numerical results provide references to choose proper experimental parameters for designing the experiment.The frequency conversion of the multipartite entangled state can also be applied to a quantum communication network.
We analyze the entanglement characteristics of three harmonic modes, which are the output fields from three cavities with an input tripartite entangled state at fundamental frequency. The entanglement properties of the input beams can be maintained after their frequencies have been up-converted by the process of second harmonic generation. We have calculated the parametric dependences of the correlation spectrum on the initial squeezing factor, the pump power, the transmission coefficient, and the normalized analysis frequency of cavity. Numerical results provide references to choose proper experimental parameters for designing the experiment The frequency conversion of the multipartite entangled state can also be applied to a quantum communication network.