A cavity-enhanced system encodes qubits in polarization of intracavity modes and uses polarization-selective nonlinearities to implement universal gates, with scaling analysis indicating feasible conditional phases in small cavities using accessible materials.
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Develops theory for coherent coupling of magnetic textures in nanodiscs to circuit photons, enabling broadband spectroscopy and potential strong-coupling regime.
Quantum teleportation using noisy top-quark pairs stays above the classical fidelity threshold of 2/3.
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Cavity-Enhanced Collective Quantum Processing with Polarization-Encoded Qubits
A cavity-enhanced system encodes qubits in polarization of intracavity modes and uses polarization-selective nonlinearities to implement universal gates, with scaling analysis indicating feasible conditional phases in small cavities using accessible materials.
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QED with magnetic textures
Develops theory for coherent coupling of magnetic textures in nanodiscs to circuit photons, enabling broadband spectroscopy and potential strong-coupling regime.
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Characterizing quantum correlations and quantum teleportation in $gg \to t\bar{t}$ and $q\bar{q} \to t\bar{t}$ processes under noisy channels
Quantum teleportation using noisy top-quark pairs stays above the classical fidelity threshold of 2/3.