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Dynamics of Entanglement between a Quantum Dot Spin Qubit and a Photon Qubit inside a Semiconductor High-Q Nanocavity

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  • Hubert Pascal Seigneur
  • Gabriel Gonzalez
  • Michael Niklaus Leuenberger
  • Winston Vaughan Schoenfeld

Abstract

We investigate in this paper the dynamics of entanglement between a QD spin qubit and a single photon qubit inside a quantum network node, as well as its robustness against various decoherence processes. First, the entanglement dynamics is considered without decoherence. In the small detuning regime ( Δ = 7 8 𠜇 e V ), there are three different conditions for maximum entanglement, which occur after 71, 93, and 116 picoseconds of interaction time. In the large detuning regime ( Δ = 1 . 5 m e V ), there is only one peak for maximum entanglement occurring at 625 picoseconds. Second, the entanglement dynamics is considered with decoherence by including the effects of spin-nucleus and hole-nucleus hyperfine interactions. In the small detuning regime, a decent amount of entanglement (35% entanglement) can only be obtained within 200 picoseconds of interaction. Afterward, all entanglement is lost. In the large detuning regime, a smaller amount of entanglement is realized, namely, 25%. And, it lasts only within the first 300 picoseconds.

Suggested Citation

  • Hubert Pascal Seigneur & Gabriel Gonzalez & Michael Niklaus Leuenberger & Winston Vaughan Schoenfeld, 2010. "Dynamics of Entanglement between a Quantum Dot Spin Qubit and a Photon Qubit inside a Semiconductor High-Q Nanocavity," Advances in Mathematical Physics, Hindawi, vol. 2010, pages 1-31, March.
    • Handle: RePEc:hin:jnlamp:342915
    DOI: 10.1155/2010/342915
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