Precision characterisation of two-qubit Hamiltonians via entanglement mapping

Details Precision characterisation of two-qubit Hamiltonians via entanglement mapping Precision characterisation of two-qubit Hamiltonians via entanglement mapping

2005-08-30

arxiv.org/abs/quant-ph/0508229v2

J. Phys. A: Math. Gen. 39 14649-14658, 2006

Physics

Quantum Physics

6 Pages, 3 figures

Scientific paper

10.1088/0305-4470/39/47/009

We show that the general Heisenberg Hamiltonian with non-uniform couplings can be characterised by mapping the entanglement it generates as a function of time. Identification of the Hamiltonian in this way is possible as the coefficients of each operator control the oscillation frequencies of the entanglement function. The number of measurements required to achieve a given precision in the Hamiltonian parameters is determined and an efficient measurement strategy designed. We derive the relationship between the number of measurements, the resulting precision and the ultimate discrete error probability generated by a systematic mis-characterisation, when implementing two-qubit gates for quantum computing.

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