Optimal Large-Scale Quantum State Tomography With Pauli Measurements

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Compressed sensing
density matrix
Pauli matrices
quantum measurement
quantum probability
quantum statistics
sparse representation
spectral norm
minimax estimation
Physical Sciences and Mathematics

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Quantum state tomography aims to determine the state of a quantum system as represented by a density matrix. It is a fundamental task in modern scientific studies involving quantum systems. In this paper, we study estimation of high-dimensional density matrices based on Pauli measurements. In particular, under appropriate notion of sparsity, we establish the minimax optimal rates of convergence for estimation of the density matrix under both the spectral and Frobenius norm losses; and show how these rates can be achieved by a common thresholding approach. Numerical performance of the proposed estimator is also investigated.

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2016-01-01

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The Annals of Statistics

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