论文信息 - Approximate method for treating dispersion in one-way quantum channels (5 pages)

Approximate method for treating dispersion in one-way quantum channels (5 pages)

Coupling the output of a source quantum system into a target quantum system is easily treated by cascaded systems theory if the intervening quantum channel is dispersionless. However, dispersion may be important in some transfer protocols, especially in solid-state systems. In this paper we show how to generalize cascaded systems theory to treat such dispersion, provided it is not too strong. We show that the technique also works for fermionic systems with a low flux, and can be extended to treat fermionic systems with large flux. To test our theory, we calculate the effect of dispersion on the fidelity of a simple protocol of quantum state transfer. We find good agreement with an approximate analytical theory that had been previously developed for this example.

T. M. Stace | H. M. Wiseman

[1] J. Cirac,et al. Quantum State Transfer and Entanglement Distribution among Distant Nodes in a Quantum Network , 1996, quant-ph/9611017.

[2] Howard Mark Wiseman,et al. DEFINING THE (ATOM) LASER , 1997 .

[3] Carmichael,et al. Quantum trajectory theory for cascaded open systems. , 1993, Physical review letters.

[4] T. M. Stace,et al. Effect of stochastic noise on quantum-state transfer , 2002 .

[5] D. Sprinzak,et al. An electronic Mach–Zehnder interferometer , 2003, Nature.

[6] Gardiner,et al. Driving a quantum system with the output field from another driven quantum system. , 1993, Physical review letters.

[7] G J Milburn,et al. Mesoscopic one-way channels for quantum state transfer via the quantum Hall effect. , 2004, Physical review letters.

[8] M. Buttiker,et al. Visibility of current and shot noise in electrical Mach-Zehnder and Hanbury Brown Twiss interferometers , 2005, cond-mat/0505511.

[9] F. Petruccione,et al. Stochastic wave function method for non-markovian quantum master equations , 1999 .