Pulse-optimized implementations of single- and double-qubit excitations in VQE reduce runtimes by up to 15.3 times on silicon spin-qubit processors.
and Yordanov, Yordan S
3 Pith papers cite this work. Polarity classification is still indexing.
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quant-ph 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Error mitigation does not restore expressibility as a reliable predictor of VQE performance under noise, while simple circuit topology metrics like two-qubit gate count predict PEC degradation better in tested cases.
Noise in LUCJ sampling for QSCI on N2 expands the configuration space beyond the ideal ansatz and, when paired with recovery, produces more accurate CI energies than noiseless sampling.
citing papers explorer
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Pulse-optimised circuit elements for scalable and noise-resilient quantum chemistry
Pulse-optimized implementations of single- and double-qubit excitations in VQE reduce runtimes by up to 15.3 times on silicon spin-qubit processors.
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Expressibility, Noise, and Error Mitigation in VQE Ansatz Selection
Error mitigation does not restore expressibility as a reliable predictor of VQE performance under noise, while simple circuit topology metrics like two-qubit gate count predict PEC degradation better in tested cases.
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Noise and Configuration Recovery Impact on Quantum Selected Configuration Interaction
Noise in LUCJ sampling for QSCI on N2 expands the configuration space beyond the ideal ansatz and, when paired with recovery, produces more accurate CI energies than noiseless sampling.