Gerster, Lukas scite author profile

Quantum information carriers, just like most physical systems, naturally occupy high-dimensional Hilbert spaces. Instead of restricting them to a two-level subspace, these high-dimensional (qudit) quantum systems are emerging as a powerful resource for the next generation of quantum processors. Yet harnessing the potential of these systems requires efficient ways of generating the desired interaction between them. Here, we experimentally demonstrate an implementation of a native two-qudit entangling gate up to dimension 5 in a trapped-ion system. This is achieved by generalizing a recently proposed light-shift gate mechanism to generate genuine qudit entanglement in a single application of the gate. The gate seamlessly adapts to the local dimension of the system with a calibration overhead that is independent of the dimension.

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Experimental Bayesian Calibration of Trapped-Ion Entangling Operations

Lukas

Martínez-García

Hrmo

et al. 2022

PRX Quantum

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Analytical and experimental study of center line miscalibrations in Mølmer-Sørensen gates

Martínez-García¹,

Lukas²,

Vodola³

et al. 2021

Preprint

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Analytical and experimental study of center-line miscalibrations in Mølmer-Sørensen gates

et al. 2022

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Gerster, Lukas

Coherent rotations of qubits within a surface ion-trap quantum computer

Native qudit entanglement in a trapped ion quantum processor

Experimental Bayesian Calibration of Trapped-Ion Entangling Operations

Analytical and experimental study of center line miscalibrations in Mølmer-Sørensen gates

Analytical and experimental study of center-line miscalibrations in Mølmer-Sørensen gates

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