Non-demolition fluorescence readout and high-fidelity unconditional reset of a fluxonium qubit via dissipation engineering

• URL: http://arxiv.org/abs/2504.15901v1
• Date: Tue, 22 Apr 2025 13:41:30 GMT
• Title: Non-demolition fluorescence readout and high-fidelity unconditional reset of a fluxonium qubit via dissipation engineering
• Authors: Shu Watanabe, Kotaro Hida, Kohei Matsuura, Yasunobu Nakamura,
• Abstract summary: We demonstrate non-demolition fluorescence readout and high-fidelity unconditional reset of a fluxonium qubit via dissipation engineering.<n>Results highlight the potential of superconducting-quantum computing architectures without relying on dispersive interaction between qubits and resonators.
• Score: 2.3207473918427386
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Non-demolition readout and high-fidelity unconditional reset of qubits are key requirements for practical quantum computation. For superconducting qubits, readout and reset are typically realized using resonators based on dispersive approximation. However, violations of the approximation often lead to detrimental effects on the qubit. In this work, we demonstrate non-demolition fluorescence readout and high-fidelity unconditional reset of a fluxonium qubit via dissipation engineering without employing a resonator. We design and implement a planar filter to protect the qubit from energy relaxation while enhancing the relaxation of the readout transition. By appropriately selecting the readout transition, we achieve fluorescence readout with enhanced quantum non-demolitionness. We also realize fast, high-fidelity and all-microwave unconditional reset of the fluxonium qubit. These results highlight the potential of superconducting-quantum computing architectures without relying on dispersive interaction between qubits and resonators.

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