论文信息 - How to best sample a periodic probability distribution, or on the accuracy of Hamiltonian finding strategies

How to best sample a periodic probability distribution, or on the accuracy of Hamiltonian finding strategies

Projective measurements of a single two-level quantum mechanical system (a qubit) evolving under a time-independent Hamiltonian produce a probability distribution that is periodic in the evolution time. The period of this distribution is an important parameter in the Hamiltonian. Here, we explore how to design experiments so as to minimize error in the estimation of this parameter. While it has been shown that useful results may be obtained by minimizing the risk incurred by each experiment, such an approach is computationally intractable in general. Here, we motivate and derive heuristic strategies for experiment design that enjoy the same exponential scaling as fully optimized strategies. We then discuss generalizations to the case of finite relaxation times, T2 < ∞.

Christopher Ferrie | Christopher E. Granade | David G. Cory

[1] Ruby C. Weng,et al. A Bayesian Edgeworth expansion by Stein's identity , 2010 .

[2] J. Skilling,et al. Exponential sampling, an alternative method for sampling in two-dimensional NMR experiments , 1987 .

[3] Christopher Ferrie,et al. ADAPTIVE HAMILTONIAN ESTIMATION USING BAYESIAN EXPERIMENTAL DESIGN , 2011, 1111.0935.

[4] J. Hoch,et al. Nonuniform sampling and spectral aliasing. , 2009, Journal of magnetic resonance.

[5] Howard M. Wiseman,et al. Characterization of a qubit Hamiltonian using adaptive measurements in a fixed basis , 2011, 1102.3700.

[6] B. Hoadley. Asymptotic Properties of Maximum Likelihood Estimators for the Independent Not Identically Distributed Case , 1971 .

[7] John Preskill,et al. Quantum information and precision measurement , 1999, quant-ph/9904021.

[8] R. Gill,et al. Applications of the van Trees inequality : a Bayesian Cramr-Rao bound , 1995 .

[9] Gerhard Wagner,et al. Applications of non-uniform sampling and processing. , 2012, Topics in current chemistry.

[10] Thomas M. Cover,et al. Elements of Information Theory , 2005 .

[11] E. L. Lehmann,et al. Theory of point estimation , 1950 .

[12] R. Chylla,et al. Theory and application of the maximum likelihood principle to NMR parameter estimation of multidimensional NMR data , 1995, Journal of biomolecular NMR.