Quantum oscillator noise spectroscopy via displaced cat states

Quantum oscillator noise spectroscopy via displaced cat states

Quantum harmonic oscillators are central to many modern quantum technologies. We introduce a method to determine the frequency noise spectrum of oscillator modes through coupling them to a qubit with continuously driven qubit-state-dependent displacements. We reconstruct the noise spectrum using a s...

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Veröffentlicht in:arXiv.org 2021-07
Hauptverfasser: Milne, Alistair R, Hempel, Cornelius, Li, Li, Edmunds, Claire L, Slatyer, Harry J, Ball, Harrison, Hush, Michael R, Biercuk, Michael J
Format: Artikel
Sprache:eng
Schlagworte:
Amplitude modulation
Data integration
Inversions
Multisensor fusion
Noise
Noise sensitivity
Optimization
Physics - Quantum Physics
Qubits (quantum computing)
Spectral sensitivity
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Zusammenfassung:Quantum harmonic oscillators are central to many modern quantum technologies. We introduce a method to determine the frequency noise spectrum of oscillator modes through coupling them to a qubit with continuously driven qubit-state-dependent displacements. We reconstruct the noise spectrum using a series of different drive phase and amplitude modulation patterns in conjunction with a data-fusion routine based on convex optimization. We apply the technique to the identification of intrinsic noise in the motional frequency of a single trapped ion with sensitivity to fluctuations at the sub-Hz level in a spectral range from quasi-DC up to 50 kHz.
ISSN:2331-8422
DOI:10.48550/arxiv.2010.04375