Ultra-Fast Quantum Control via Non-Adiabatic Resonance Windows: A 9x Speed-up on 127-Qubit IBM Processors

· 2026 · cond-mat.mes-hall · arXiv 2605.10578

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abstract

Standard adiabatic protocols for superconducting qubits often face a trade-off between gate speed and decoherence. In this work, using IBM Quantum 127-qubit processors (ibm_fez and ibm_kingston), we report the discovery of a fundamental non-adiabatic resonance window at about 4.9. This window demonstrates the potential for a 9.2-fold reduction in gate duration relative to the conventional adiabatic limit, while maintaining state high fidelities within the identified resonance windows. Through synchronous cross-backend execution, we demonstrate a near-perfect correlation (R = 0.9998) in the resonance profile, confirming the universality of the non-adiabatic parameter across independent hardware architectures. However, our longitudinal analysis reveals that these high-Q windows are sensitive to sub-percent calibration drifts, which dynamically shift the system into a stochastic regime. These findings suggest that achieving next-tier quantum performance requires a transition from static gate protocols to dynamic resonance-tracking control tools. This study provides both the theoretical foundation and the experimental evidence for such ultra-fast, high-performance quantum architectures.

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Ultra-Fast Quantum Control via Non-Adiabatic Resonance Windows: A 9x Speed-up on 127-Qubit IBM Processors

cond-mat.mes-hall · 2026-05-11 · unverdicted · novelty 5.0

Discovery of a non-adiabatic resonance window at ~4.9 that yields a 9.2-fold gate speed-up on 127-qubit IBM processors with high fidelity.

An Effective Scaling Framework for Non-Adiabatic Mode Dynamics

cond-mat.mes-hall · 2026-05-13 · unverdicted · novelty 4.0 · 2 refs

Nonlinear spectral detuning via a regulator U can saturate non-adiabatic parametric amplification, suppressing exponential growth toward bounded low-occupancy regimes in strongly nonlinear oscillatory systems.

Bogoliubov mode dynamics and non-adiabatic transitions in time-varying condensed media

cond-mat.mes-hall · 2026-05-04 · unverdicted · novelty 4.0

Introduces a universal dimensionless metric for non-adiabatic phase-mode redistribution at defects in condensed media, supported by numerical simulations in a 50-level bosonic basis and a scaling law.

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Ultra-Fast Quantum Control via Non-Adiabatic Resonance Windows: A 9x Speed-up on 127-Qubit IBM Processors cond-mat.mes-hall · 2026-05-11 · unverdicted · none · ref 9 · internal anchor
Discovery of a non-adiabatic resonance window at ~4.9 that yields a 9.2-fold gate speed-up on 127-qubit IBM processors with high fidelity.
An Effective Scaling Framework for Non-Adiabatic Mode Dynamics cond-mat.mes-hall · 2026-05-13 · unverdicted · none · ref 26 · 2 links · internal anchor
Nonlinear spectral detuning via a regulator U can saturate non-adiabatic parametric amplification, suppressing exponential growth toward bounded low-occupancy regimes in strongly nonlinear oscillatory systems.
Bogoliubov mode dynamics and non-adiabatic transitions in time-varying condensed media cond-mat.mes-hall · 2026-05-04 · unverdicted · none · ref 18 · internal anchor
Introduces a universal dimensionless metric for non-adiabatic phase-mode redistribution at defects in condensed media, supported by numerical simulations in a 50-level bosonic basis and a scaling law.

Ultra-Fast Quantum Control via Non-Adiabatic Resonance Windows: A 9x Speed-up on 127-Qubit IBM Processors

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