A statistical framework models quasiparticle recombination and trapping in transmon qubits after particle impacts, enabling energy reconstruction of impacts through phonon-linked correlated relaxations that match Monte Carlo simulations.
McEwenet al., Phys
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Empirical scaling across materials reveals a universal bound on microwave dissipation tied to superfluid density and attributed to trapped nonequilibrium quasiparticles.
A topical review unifying statistical mechanics, tensor network, and AI approaches to approximate maximum likelihood decoding for quantum error correction codes.
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Measuring quasiparticle dynamics for particle impact reconstruction in a superconducting qubit chip
A statistical framework models quasiparticle recombination and trapping in transmon qubits after particle impacts, enabling energy reconstruction of impacts through phonon-linked correlated relaxations that match Monte Carlo simulations.
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Universal bound on microwave dissipation in superconducting circuits
Empirical scaling across materials reveals a universal bound on microwave dissipation tied to superfluid density and attributed to trapped nonequilibrium quasiparticles.
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Maximum Likelihood Decoding of Quantum Error Correction Codes
A topical review unifying statistical mechanics, tensor network, and AI approaches to approximate maximum likelihood decoding for quantum error correction codes.