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Genuine Quantum Non-Gaussianity and Metrological Sensitivity of Fock States Prepared in a Mechanical Resonator

Q. Rumman Rahman, Igor Kladarić, Max-Emanuel Kern, Lukáš Lachman, Yiwen Chu, Radim Filip, Matteo Fadel

2025Physical Review Letters13 citationsDOI

Abstract

Fock states of the quantum harmonic oscillator are fundamental to quantum sensing and information processing, serving as key resources for exploiting bosonic degrees of freedom. Here, we prepare high Fock states in a high-overtone bulk acoustic wave resonator by coupling it to a superconducting qubit and applying microwave pulses designed using quantum optimal control. We characterize the experimentally realized states by employing a criterion for genuine quantum non-Gaussianity (QNG) designed to reveal multiphonon contributions. Although energy relaxation and decoherence limit the achievable fidelities, we demonstrate genuine QNG features compatible with a Fock state |6⟩, confirming that the prepared states cannot be generated through Gaussian operations on states with up to Fock state |5⟩ contributions. We further investigate the robustness of these QNG features to losses and their utility in sensing displacement amplitudes. In particular, we introduce a hierarchy based on the quantum Fisher information and show that, despite decoherence and measurement imperfections, the prepared states achieve a displacement sensitivity surpassing that of an ideal Fock state |3⟩. Our results have immediate applications in quantum sensing and simulations with high-overtone bulk acoustic wave resonator devices.

Topics & Concepts

Non-GaussianityResonatorSensitivity (control systems)Fock spacePhysicsQuantum metrologyMetrologyQuantumQuantum opticsQuantum mechanicsOpticsQuantum technologyElectronic engineeringOpen quantum systemEngineeringAnisotropyCosmic microwave backgroundQuantum Information and CryptographyMechanical and Optical ResonatorsQuantum Mechanics and Applications
Genuine Quantum Non-Gaussianity and Metrological Sensitivity of Fock States Prepared in a Mechanical Resonator | Litcius