Litcius/Paper detail

Preserving multilevel quantum coherence by dynamical decoupling

Xinxing Yuan, Yue Li, Mengxiang Zhang, Chang Liu, Mingdong Zhu, Xi Qin, Nikolay V. Vitanov, Yiheng Lin, Jiangfeng Du

2022Physical review. A/Physical review, A12 citationsDOIOpen Access PDF

Abstract

Quantum information processing with multilevel systems (qudits) provides additional features and applications than the two-level systems. However, qudits are more prone to dephasing and dynamical decoupling for qudits has never been experimentally demonstrated. Here, as a proof-of-principle demonstration, we experimentally apply dynamical decoupling to protect superpositions with three levels of a trapped $^{9}\mathrm{Be}^{+}$ ion from ambient noisy magnetic field, prolonging coherence by up to approximately an order of magnitude. Our demonstration, straightforwardly scalable to more levels, may open up a path toward long coherence quantum memory, metrology, and information processing with qudits.

Topics & Concepts

Dynamical decouplingDephasingCoherence (philosophical gambling strategy)Decoupling (probability)Coherence timeScalabilityQuantumQuantum information processingQuantum informationQuantum metrologyComputer scienceStatistical physicsPhysicsQuantum sensorQuantum technologyDecoherence-free subspacesQuantum mechanicsQuantum computerQuantum error correctionOpen quantum systemQuantum networkEngineeringControl engineeringDatabaseQuantum optics and atomic interactionsQuantum Information and CryptographyAtomic and Subatomic Physics Research
Preserving multilevel quantum coherence by dynamical decoupling | Litcius