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W4366438833 abstract "Tunability of an artificial quantum system is crucial to its capability to process quantum information. However, tunability usually poses significant demand on the design and fabrication of a device. In this work, we demonstrate that Floquet engineering based on longitudinal driving provides distinct possibilities in enhancing the tunability of a quantum system without needing additional resources. In particular, we study a multilevel model based on gate-defined double quantum dots, where coherent interference occurs when the system is driven longitudinally. We develop an effective model to describe the driven dynamics of this multilevel system, and show that it is highly tunable via the driving field. We then illustrate the versatility and rich physics of a driven multilevel system by exploring phenomena such as driving modulation of resonances, adiabatic state transfer, and dark state. In the context of qubit control, we propose noise-resistant quantum gates based on adiabatic passage. The theoretical consideration we present here is rather general, and is in principle valid for other multilevel quantum systems." @default.
W4366438833 created "2023-04-21" @default.
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W4366438833 date "2023-04-19" @default.
W4366438833 modified "2023-10-10" @default.
W4366438833 title "Full Tunability and Quantum Coherent Dynamics of a Driven Multilevel System" @default.
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W4366438833 doi "https://doi.org/10.1103/physrevapplied.19.044053" @default.
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