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Auteurs principaux: Chapple, Alex A., McDonald, Alexander, Muñoz-Arias, Manuel H., Blais, Alexandre
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2412.07734
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author Chapple, Alex A.
McDonald, Alexander
Muñoz-Arias, Manuel H.
Blais, Alexandre
author_facet Chapple, Alex A.
McDonald, Alexander
Muñoz-Arias, Manuel H.
Blais, Alexandre
contents Multi-photon processes deteriorate the quantum non-demolition (QND) character of the dispersive readout in circuit QED, causing readout to lag behind single and two-qubit gates, in both speed and fidelity. Alternative methods such as the longitudinal readout have been proposed, however, it is unknown to what extent multi-photon processes hinder this approach. Here we investigate the QND character of the longitudinal readout of the transmon qubit. We show that the deleterious effects that arise due to multi-photon transitions can be heavily suppressed with detuning, owing to the fact that the longitudinal interaction strength is independent of the transmon-resonator detuning. We consider the effect of circuit disorder, the selection rules that act on the transmon, as well as the description of longitudinal readout in the classical limit of the transmon to show qualitatively that longitudinal readout is robust. We show that fast, high-fidelity QND readout of transmon qubits is possible with longitudinal coupling.
format Preprint
id arxiv_https___arxiv_org_abs_2412_07734
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Robustness of longitudinal transmon readout to ionization
Chapple, Alex A.
McDonald, Alexander
Muñoz-Arias, Manuel H.
Blais, Alexandre
Quantum Physics
Multi-photon processes deteriorate the quantum non-demolition (QND) character of the dispersive readout in circuit QED, causing readout to lag behind single and two-qubit gates, in both speed and fidelity. Alternative methods such as the longitudinal readout have been proposed, however, it is unknown to what extent multi-photon processes hinder this approach. Here we investigate the QND character of the longitudinal readout of the transmon qubit. We show that the deleterious effects that arise due to multi-photon transitions can be heavily suppressed with detuning, owing to the fact that the longitudinal interaction strength is independent of the transmon-resonator detuning. We consider the effect of circuit disorder, the selection rules that act on the transmon, as well as the description of longitudinal readout in the classical limit of the transmon to show qualitatively that longitudinal readout is robust. We show that fast, high-fidelity QND readout of transmon qubits is possible with longitudinal coupling.
title Robustness of longitudinal transmon readout to ionization
topic Quantum Physics
url https://arxiv.org/abs/2412.07734