Cavity-mediated all-to-all interactions in a solid-state 171Yb3+:CaWO4 ensemble enable superradiance, one-axis twisting, and gap-protected coherence extending Ramsey times from microseconds to milliseconds.
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2026 3verdicts
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A Krylov-space approach provides exact expressions for the Lieb-Robinson velocity and quantum speed limit in the single-excitation subspace of inhomogeneous spin ensembles, revealing strong dependence on the resonance frequency distribution.
Optimal cavity modulation via Krylov theory extends qubit lifetime in inhomogeneous spin ensembles by an order of magnitude over inhomogeneity and cavity losses.
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Cavity-mediated coherence protection and one-axis twisting for spins in solids
Cavity-mediated all-to-all interactions in a solid-state 171Yb3+:CaWO4 ensemble enable superradiance, one-axis twisting, and gap-protected coherence extending Ramsey times from microseconds to milliseconds.
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Quantum information spreading in inhomogeneous spin ensembles
A Krylov-space approach provides exact expressions for the Lieb-Robinson velocity and quantum speed limit in the single-excitation subspace of inhomogeneous spin ensembles, revealing strong dependence on the resonance frequency distribution.
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Optimally Controlled Storage of a Qubit in an Inhomogeneous Spin Ensemble
Optimal cavity modulation via Krylov theory extends qubit lifetime in inhomogeneous spin ensembles by an order of magnitude over inhomogeneity and cavity losses.