中文

Optimal manipulations with qubits: Universal quantum entanglers

量子物理 2009-11-06 v1

摘要

We analyze various scenarios for entangling two initially unentangled qubits. In particular, we propose an optimal universal entangler which entangles a qubit in unknown state Ψ>|\Psi> with a qubit in a reference (known) state 0>|0>. That is, our entangler generates the output state which is as close as possible to the pure (symmetrized) state (Ψ>0>+0>Ψ>)(|\Psi>|0> +|0>|\Psi>). The most attractive feature of this entangling machine, is that the fidelity of its performance (i.e. the distance between the output and the ideally entangled -- symmetrized state) does not depend on the input and takes the constant value F=(9+32)/140.946F= (9+3\sqrt{2})/14\simeq 0.946. We also analyze how to optimally generate from a single qubit initially prepared in an unknown state |\Psi\r a two qubit entangled system which is as close as possible to a Bell state (Ψ˚Ψ+˚Ψ˚Ψ)˚(|\Psi\r|\Psi^\perp\r+|\Psi^\perp\r|\Psi\r), where \lΨΨ=˚0\l\Psi|\Psi^\perp\r =0.

关键词

引用

@article{arxiv.quant-ph/0006045,
  title  = {Optimal manipulations with qubits: Universal quantum entanglers},
  author = {Vladimir Buzek and Mark Hillery},
  journal= {arXiv preprint arXiv:quant-ph/0006045},
  year   = {2009}
}

备注

11 pages, 3 eps figures, accepted for publication in Phys. Rev. A