Statistical estimation of the quality of quantum-tomography protocols

Yu. I. Bogdanov; G. Brida; I. D. Bukeev; M. Genovese; K. S. Kravtsov,; S. P. Kulik; E. V. Moreva; A. A. Soloviev; A. P. Shurupov

arXiv:1106.2056·quant-ph·November 8, 2011

Statistical estimation of the quality of quantum-tomography protocols

Yu. I. Bogdanov, G. Brida, I. D. Bukeev, M. Genovese, K. S. Kravtsov,, S. P. Kulik, E. V. Moreva, A. A. Soloviev, A. P. Shurupov

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TL;DR

This paper introduces a comprehensive methodology for evaluating quantum tomography protocols, validated through numerical simulations and experimental comparisons across diverse quantum states, enhancing the assessment of quantum state reconstruction techniques.

Contribution

It provides a complete testing framework for quantum tomography protocols, including validation with numerical and experimental data across various quantum states.

Findings

01

Validated methodology with numerical examples

02

Experimental comparison across protocols and states

03

Effective assessment of quantum tomography performance

Abstract

We present a complete methodology for testing the performances of quantum tomography protocols. The theory is validated by several numerical examples and by the comparison with experimental results achieved with various protocols for whole families of polarization states of qubits and ququaters including pure, mixed, entangled and separable.

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