A protocol prepares auxiliary qubits in a quantum synchronizing word state to unitarily reset a qudit automaton to a predetermined pure state independent of its initial configuration, while generating entanglement in the auxiliaries.
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2 Pith papers cite this work. Polarity classification is still indexing.
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quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Hybrid quantum walks with optimal-control-derived dynamical coins generate larger Jordan-Lie algebras than QAOA and show faster convergence and higher accuracy on Max-Cut and MIS instances.
citing papers explorer
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Unitary Realizations of Synchronizing Automata in Quantum Systems
A protocol prepares auxiliary qubits in a quantum synchronizing word state to unitarily reset a qudit automaton to a predetermined pure state independent of its initial configuration, while generating entanglement in the auxiliaries.
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Beyond Single Trajectories: Optimal Control and Jordan-Lie Algebra in Hybrid Quantum Walks for Combinatorial Optimization
Hybrid quantum walks with optimal-control-derived dynamical coins generate larger Jordan-Lie algebras than QAOA and show faster convergence and higher accuracy on Max-Cut and MIS instances.