Continuous dynamical decoupling of optical 171Yb+ qudits with radiofrequency fields

Continuous dynamical decoupling of optical 171Yb+ qudits with radiofrequency fields

The use of multilevel quantum information carriers, also known as qudits, has attracted significant interest as a way of further scaling quantum computing devices. However, such multilevel systems usually express shorter coherence time than their two-level counterparts, which limits their computatio...

Full description

Bibliographic Details
Main Authors: Ilia V. Zalivako, Alexander S. Borisenko, Ilya A. Semerikov, Andrey E. Korolkov, Pavel L. Sidorov, Kristina P. Galstyan, Nikita V. Semenin, Vasiliy N. Smirnov, Mikhail D. Aksenov, Aleksey K. Fedorov, Ksenia Yu Khabarova, Nikolay N. Kolachevsky
Format: Article
Language:English
Published: Frontiers Media S.A. 2023-08-01
Series:Frontiers in Quantum Science and Technology
Subjects:
qudits
dynamical decoupling
continuous dynamical decoupling
ions
ytterbium
coherence
Online Access:https://www.frontiersin.org/articles/10.3389/frqst.2023.1228208/full
Description
Summary:The use of multilevel quantum information carriers, also known as qudits, has attracted significant interest as a way of further scaling quantum computing devices. However, such multilevel systems usually express shorter coherence time than their two-level counterparts, which limits their computational potential. We thus propose and experimentally demonstrate two approaches for realizing the continuous dynamical decoupling of magnetic-sensitive states with mF = ±1 for qudits encoded in optical transition of trapped 171Yb+ ions. We improve the coherence time of qudit levels by an order of magnitude (more than 9 ms) without any magnetic shielding, revealing the potential advantage of the symmetry of the 171Yb+ ion energy structure for counteracting magnetic field noise. Our results are a step toward realizing qudit-based algorithms using trapped ions.
ISSN:2813-2181

Similar Items