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Trapped Ion Quantum Computing

Anomalously extended Floquet prethermal lifetimes and applications to long-time quantum sensing

arXiv
Authors: Kieren A. Harkins, Cooper Selco, Christian Bengs, David Marchiori, Leo Joon Il Moon, Zhuo-Rui Zhang, Aristotle Yang, Angad Singh, Emanuel Druga, Yi-Qiao Song, Ashok Ajoy

Year

2024

Paper ID

38208

Status

Preprint

Abstract Read

~2 min

Abstract Words

184

Citations

N/A

Abstract

Floquet prethermalization is observed in periodically driven quantum many-body systems where the system avoids heating and maintains a stable, non-equilibrium state, for extended periods. Here we introduce a novel quantum control method using off-resonance and short-angle excitation to significantly extend Floquet prethermal lifetimes. This is demonstrated on randomly positioned, dipolar-coupled, 13C nuclear spins in diamond, but the methodology is broadly applicable. We achieve a lifetime $T_2' 800 s at 100 K while tracking the transition to the prethermal state quasi-continuously. This corresponds to a >533,000-fold extension over the bare spin lifetime without prethermalization, and constitutes a new record both in terms of absolute lifetime as well as the total number of Floquet pulses applied (here exceeding 7 million). Using Laplace inversion, we develop a new form of noise spectroscopy that provides insights into the origin of the lifetime extension. Finally, we demonstrate applications of these extended lifetimes in long-time, reinitialization-free quantum sensing of time-varying magnetic fields continuously for 10 minutes at room temperature. Our work facilitates new opportunities for stabilizing driven quantum systems through Floquet control, and opens novel applications for continuously interrogated, long-time responsive quantum sensors.

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  • Floquet prethermalization is observed in periodically driven quantum many-body systems where the system avoids heating and maintains a stable, non-equilibrium state, for...

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