State Tomography of Qubit Systems Using Linear Regression Estimation and Adaptive Measurements

Dong, D; Wang, Y; Hou, Z; Qi, B; Pan, Y; Xiang, GY

doi:10.1016/j.ifacol.2017.08.1955

Author(s)

Dong, D

Wang, Y

Hou, Z

Qi, B

Pan, Y

Xiang, GY

Griffith University Author(s)

Wang, Yuanlong

Year published

2017

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Abstract

Quantum state tomography is one of the critical tasks in the development of quantum technology. This paper further investigates the adaptive linear regression estimation (ALRE) method that was developed recently for state reconstruction of qubit systems. In this method, adaptive measurements are used to improve the performance of state reconstruction where current measurement basis is adaptively optimized based on previous knowledge through minimizing an index related to the mean squared error (MSE). The numerical results on single-qubit and two-qubit systems demonstrate the effectiveness of this proposed adaptive estimation ...
View more >Quantum state tomography is one of the critical tasks in the development of quantum technology. This paper further investigates the adaptive linear regression estimation (ALRE) method that was developed recently for state reconstruction of qubit systems. In this method, adaptive measurements are used to improve the performance of state reconstruction where current measurement basis is adaptively optimized based on previous knowledge through minimizing an index related to the mean squared error (MSE). The numerical results on single-qubit and two-qubit systems demonstrate the effectiveness of this proposed adaptive estimation method over static one for quantum state reconstruction.
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Journal Title

IFAC-PapersOnLine

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