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Main Authors: Atanasova, Desislava G., Yang, Ian, Hönigl-Decrinis, Teresa, Gusenkova, Daria, Pop, Ioan M., Kirchmair, Gerhard
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.07612
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author Atanasova, Desislava G.
Yang, Ian
Hönigl-Decrinis, Teresa
Gusenkova, Daria
Pop, Ioan M.
Kirchmair, Gerhard
author_facet Atanasova, Desislava G.
Yang, Ian
Hönigl-Decrinis, Teresa
Gusenkova, Daria
Pop, Ioan M.
Kirchmair, Gerhard
contents Quantum computation with bosonic modes presents a powerful paradigm for harnessing the principles of quantum mechanics to perform complex information processing tasks. In constructing a bosonic qubit with superconducting circuits, nonlinearity is typically introduced to a cavity mode through an ancillary two-level qubit. However, the ancilla's spurious heating has impeded progress towards fully fault-tolerant bosonic qubits. The ability to in situ decouple the ancilla when not in use would be beneficial but has so far only been realized with tunable couplers or additional parametric drives. This work presents a novel architecture for quantum information processing, comprising a 3D post cavity coupled to a fluxonium ancilla via a readout resonator. This system's intricate energy level structure results in a complex landscape of interactions whose sign can be tuned in situ by the magnetic field threading the fluxonium loop without the need of additional elements. Our results could significantly advance the lifetime and controllability of bosonic qubits.
format Preprint
id arxiv_https___arxiv_org_abs_2409_07612
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle In-situ tunable interaction with an invertible sign between a fluxonium and a post cavity
Atanasova, Desislava G.
Yang, Ian
Hönigl-Decrinis, Teresa
Gusenkova, Daria
Pop, Ioan M.
Kirchmair, Gerhard
Quantum Physics
Superconductivity
Quantum computation with bosonic modes presents a powerful paradigm for harnessing the principles of quantum mechanics to perform complex information processing tasks. In constructing a bosonic qubit with superconducting circuits, nonlinearity is typically introduced to a cavity mode through an ancillary two-level qubit. However, the ancilla's spurious heating has impeded progress towards fully fault-tolerant bosonic qubits. The ability to in situ decouple the ancilla when not in use would be beneficial but has so far only been realized with tunable couplers or additional parametric drives. This work presents a novel architecture for quantum information processing, comprising a 3D post cavity coupled to a fluxonium ancilla via a readout resonator. This system's intricate energy level structure results in a complex landscape of interactions whose sign can be tuned in situ by the magnetic field threading the fluxonium loop without the need of additional elements. Our results could significantly advance the lifetime and controllability of bosonic qubits.
title In-situ tunable interaction with an invertible sign between a fluxonium and a post cavity
topic Quantum Physics
Superconductivity
url https://arxiv.org/abs/2409.07612