Nonautonomous Kerr-cat qubit dynamics are organized by symmetric moving branches from a quintic normal form during state preparation and by lobe dynamics from Melnikov transport during gates, yielding amplitude-width thresholds for non-adiabatic leakage.
Goto,Bifurcation-based adiabatic quantum computation with a nonlinear oscillator network, Scientific Reports6, 21686 (2016)
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Lobe Dynamics, Phase-Space Transport, and Non-Adiabatic Leakage Thresholds in the Nonautonomous Kerr-Cat Qubit
Nonautonomous Kerr-cat qubit dynamics are organized by symmetric moving branches from a quintic normal form during state preparation and by lobe dynamics from Melnikov transport during gates, yielding amplitude-width thresholds for non-adiabatic leakage.