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Autores principales: Martín-Vázquez, Gonzalo, Tolppanen, Taneli, Silveri, Matti
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2502.14391
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author Martín-Vázquez, Gonzalo
Tolppanen, Taneli
Silveri, Matti
author_facet Martín-Vázquez, Gonzalo
Tolppanen, Taneli
Silveri, Matti
contents Leakage out from the qubit subspace compromises standard quantum error correction protocols and is a challenge for practical quantum computing. We propose a passive leakage removal unit based on an array of coupled disordered transmons and last-site reset by feedback-measurement or dissipation. The transmons have parametric disorder both in frequency and anharmonicity such that the qubit subspace is protected by localization through energy level mismatch while the energy levels for leakage excitations are in resonance for maximized leakage mobility. Leakage excitations propagate through the idle transmons until reaching the last site with feedback-measurement or dissipation removing them. For removing leakage excitations, we find two optimal measurement rates, which are comprehensively understood through two distinct timescales between the propagation and disintegration of leakage excitations. Based only on an array of standard transmon devices, our approach is readily compatible with existing superconducting quantum processor designs under realistic conditions.
format Preprint
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institution arXiv
publishDate 2025
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spellingShingle Passive leakage removal unit based on a disordered transmon array
Martín-Vázquez, Gonzalo
Tolppanen, Taneli
Silveri, Matti
Quantum Physics
Disordered Systems and Neural Networks
Mesoscale and Nanoscale Physics
Leakage out from the qubit subspace compromises standard quantum error correction protocols and is a challenge for practical quantum computing. We propose a passive leakage removal unit based on an array of coupled disordered transmons and last-site reset by feedback-measurement or dissipation. The transmons have parametric disorder both in frequency and anharmonicity such that the qubit subspace is protected by localization through energy level mismatch while the energy levels for leakage excitations are in resonance for maximized leakage mobility. Leakage excitations propagate through the idle transmons until reaching the last site with feedback-measurement or dissipation removing them. For removing leakage excitations, we find two optimal measurement rates, which are comprehensively understood through two distinct timescales between the propagation and disintegration of leakage excitations. Based only on an array of standard transmon devices, our approach is readily compatible with existing superconducting quantum processor designs under realistic conditions.
title Passive leakage removal unit based on a disordered transmon array
topic Quantum Physics
Disordered Systems and Neural Networks
Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2502.14391