Experimental demonstration of loop state-preparation-and-measurement tomography
A. F. McCormick, S. J. van Enk, M. Beck

TL;DR
This paper experimentally demonstrates loop SPAM tomography's ability to detect correlated errors in quantum state preparation and measurement, enabling self-consistency checks and quantum tomography without assumptions beyond known dimensions.
Contribution
The work provides the first experimental validation of loop SPAM tomography for detecting correlated errors in quantum systems.
Findings
Successfully detected correlated errors between state preparation and measurement.
Performed quantum state and detector tomography using the method.
Validated the self-consistency of quantum measurements without assumptions.
Abstract
We have performed an experiment demonstrating that loop state-preparation-and-measurement (SPAM) tomography [C. Jackson and S. J. van Enk, Phys. Rev. A 92, 042312 (2015)] is capable of detecting correlated errors between the preparation and the measurement of a quantum system. Specifically, we have prepared pure and mixed states of single qubits encoded in the polarization of heralded individual photons. By performing measurements using multiple state preparations and multiple measurement device settings we are able to detect if there are any correlated errors between them, and are also able to determine which state preparations are correlated with which measurements. This is accomplished by going around a 'loop' in parameter space, which allows us to check for self-consistency. No assumptions are made concerning either the state preparations or the measurements, other than that the…
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