Tuesday, March 5, 2013

1303.0056 (Bao-Cang Ren et al.)

Deterministic photonic spatial-polarization hyper-controlled-not gate
assisted by quantum dot inside one-side optical microcavity
   [PDF]

Bao-Cang Ren, Hai-Rui Wei, Fu-Guo Deng
Up to now, all the works about constructing quantum logic gates, an essential part in quantum computing, are focused on operating on one degree of freedom (DOF) of quantum systems. Here, we investigate the possibility to achieve scalable photonic quantum computing based on two DOFs of quantum systems and construct a deterministic hyper-controlled-not (hyper-CNOT) gate operating on both spatial-mode and polarization DOFs of a photon pair simultaneously, by using the giant optical Faraday rotation induced by a single-electron spin in a quantum dot inside a one-side optical microcavity as a result of cavity QED. With this hyper-CNOT gate and linear optical elements, two-photon four-qubit cluster entangled states can be prepared and analyzed, which gives an application to manipulate more information with less resources. We analyze the experimental feasibility of this hyper-CNOT gate and show that it can be implemented with current technology.
View original: http://arxiv.org/abs/1303.0056

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