Multiaxis quantum noise spectroscopy robust to errors in state preparation and measurement
Muhammad Qasim Khan, Wenzheng Dong, Leigh Norris, Lorenza Viola
Abstract
Quantum noise spectroscopy (QNS) is a powerful tool to characterize temporally correlated environmental noise, for noise-tailored control in noisy intermediate-scale quantum processors. However, QNS protocols have been limited by their vulnerability to state-preparation-and-measurement (SPAM) errors, and their inability to simultaneously characterize dephasing and relaxation effects. This work overcomes both of these challenges. The authors present a single-qubit QNS protocol utilizing continuous off-axis control for robust estimation of all multiaxis noise spectra, and show that SPAM errors can significantly alter or mask important features of the underlying native noise.
Topics & Concepts
Noise (video)QuantumSpectroscopyPhysicsComputer scienceArtificial intelligenceQuantum mechanicsImage (mathematics)Spectroscopy and Quantum Chemical StudiesQuantum optics and atomic interactionsSpectroscopy and Laser Applications