Optimal Control for Generating Quantum Gates in Open Dissipative Systems

Details Optimal Control for Generating Quantum Gates in Open Dissipative Systems Optimal Control for Generating Quantum Gates in Open Dissipative Systems

2006-09-06

arxiv.org/abs/quant-ph/0609037v2

J. Phys. B: At. Mol. Opt. Phys. 44 (2011) 154013

Physics

Quantum Physics

largely expanded version, superseedes v1: 10 pages, 5 figures

Scientific paper

10.1088/0953-4075/44/15/154013

Optimal control methods for implementing quantum modules with least amount of relaxative loss are devised to give best approximations to unitary gates under relaxation. The potential gain by optimal control using relaxation parameters against time-optimal control is explored and exemplified in numerical and in algebraic terms: it is the method of choice to govern quantum systems within subspaces of weak relaxation whenever the drift Hamiltonian would otherwise drive the system through fast decaying modes. In a standard model system generalising decoherence-free subspaces to more realistic scenarios, openGRAPE-derived controls realise a CNOT with fidelities beyond 95% instead of at most 15% for a standard Trotter expansion. As additional benefit it requires control fields orders of magnitude lower than the bang-bang decouplings in the latter.

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