M. Muñoz scite author profile

M. Muñoz

2Publications

2Citation Statements Received

213Citation Statements Given

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Complex Field Formulation of the Quantum Estimation Theory

Muñoz¹,

Pereira²,

Niklitschek³

et al. 2022

Preprint

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We present a complex field formulation of the quantum Fisher estimation theory that works natively with complex statistics on the dependence of complex parameters. This states new complex versions of the main quantities and results of the estimation theory depending on complex parameters, such as Fisher information matrices and Cramér-Rao bounds. This can be useful in contexts where the quantum states are described through complex parameters, as coherent states or squeezed states. We show an application of our theory in quantum communication with coherent states.

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Stochastic optimization algorithms for quantum applications

Gidi¹,

Candia²,

Muñoz-Moller³

et al. 2022

Preprint

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Hybrid classical quantum optimization methods have become an important tool for efficiently solving problems in the current generation of NISQ computers. These methods use an optimization algorithm that is executed in a classical computer, which is fed with values of the objective function that are obtained in a quantum computer. Therefore, a proper choice of optimization algorithm is essential to achieve good performance. Here, we review the use of first-order, second-order, and quantum natural gradient stochastic optimization methods, which are defined in the field of real numbers, and propose new stochastic algorithms defined in the field of complex numbers. The performance of the methods is evaluated by means of their application to variational quantum eigensolver, quantum control of quantum states, and quantum state estimation. In general, complex number optimization algorithms perform better and second-order algorithms provide a large improvement over first-order methods in the case of variational quantum eigensolver.

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M. Muñoz

Complex Field Formulation of the Quantum Estimation Theory

Stochastic optimization algorithms for quantum applications

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