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Macroscopic instructions vs microscopic operations in quantum circuits
Affiliation:1. Department of Physics and Center for Optical, Molecular and Quantum Sciences, University of Oregon, Eugene, OR 97403, United States of America;2. Rigetti Computing, 775 Heinz Avenue, Berkeley, CA 94710, United States of America;3. Sandia National Laboratories, Albuquerque, NM 87185, United States of America
Abstract:In many experiments on microscopic quantum systems, it is implicitly assumed that when a macroscopic procedure or “instruction” is repeated many times – perhaps in different contexts – each application results in the same microscopic quantum operation. But in practice, the microscopic effect of a single macroscopic instruction can easily depend on its context. If undetected, this can lead to unexpected behavior and unreliable results. Here, we design and analyze several tests to detect context-dependence. They are based on invariants of matrix products, and while they can be as data intensive as quantum process tomography, they do not require tomographic reconstruction, and are insensitive to imperfect knowledge about the experiments. We also construct a measure of how unitary (reversible) an operation is, and show how to estimate the volume of physical states accessible by a quantum operation.
Keywords:Quantum tomography  Non-Markovianity
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