%0 Generic %1 sete2014lighttomatter %A Sete, Eyob A. %A Eleuch, Hichem %A Ooi, C. H. Raymond %D 2014 %K entanglement optomechanics theory %T Light-to-matter entanglement transfer in optomechanics %U http://arxiv.org/abs/1401.5205 %X We propose a scheme to entangle the states of the movable mirrors of two spatially-separated nanoresonators via a broadband squeezed light. We show that it is possible to transfer the entanglement from the squeezed light to the mechanical motions of the movable mirrors. An optimal entanglement transfer is achieved when the nanoresonators are tuned at resonance with the vibrational frequencies of the movable mirrors and when strong optomechanical coupling is attained. Stationary entanglement of the states of the movable mirrors as strong as that of the input squeezed light can be obtained for sufficiently large optomechanical cooperativity, achievable in currently available optomechanical systems. The proposed scheme can be used to implement long distance quantum state transfer provided that the squeezed light interacts with the nanoresonators.

@misc{sete2014lighttomatter, abstract = {We propose a scheme to entangle the states of the movable mirrors of two spatially-separated nanoresonators via a broadband squeezed light. We show that it is possible to transfer the entanglement from the squeezed light to the mechanical motions of the movable mirrors. An optimal entanglement transfer is achieved when the nanoresonators are tuned at resonance with the vibrational frequencies of the movable mirrors and when strong optomechanical coupling is attained. Stationary entanglement of the states of the movable mirrors as strong as that of the input squeezed light can be obtained for sufficiently large optomechanical cooperativity, achievable in currently available optomechanical systems. The proposed scheme can be used to implement long distance quantum state transfer provided that the squeezed light interacts with the nanoresonators.}, added-at = {2014-04-06T14:28:58.000+0200}, author = {Sete, Eyob A. and Eleuch, Hichem and Ooi, C. H. Raymond}, biburl = {https://www.bibsonomy.org/bibtex/247b5df40af7ed57c9c4e2a7ff36d5804/jacksankey}, description = {[1401.5205] Light-to-matter entanglement transfer in optomechanics}, interhash = {62a70f340dc48ae34db74c355841d77d}, intrahash = {47b5df40af7ed57c9c4e2a7ff36d5804}, keywords = {entanglement optomechanics theory}, note = {cite arxiv:1401.5205Comment: Text significantly changed, added references, and included new figure}, timestamp = {2014-04-06T14:28:58.000+0200}, title = {Light-to-matter entanglement transfer in optomechanics}, url = {http://arxiv.org/abs/1401.5205}, year = 2014 }