A hybrid feedback algorithm combining imaginary-time evolution and time-rescaling prepares the TFD ground state of the Maldacena-Qi model with near-unit fidelity.
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4 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 4representative citing papers
Pulse-optimized implementations of single- and double-qubit excitations in VQE reduce runtimes by up to 15.3 times on silicon spin-qubit processors.
Introduces Motte model proving equivalence between Pauli-constraint quantum circuits with tomography and coupling-graph-restricted circuits, yielding BQP universality with O(D² N log N) overhead and robustness to tomography noise.
Empirical scaling study reports VQS requires shallower circuits than Trotterization for time evolution as system size and simulation time grow.
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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Quantum circuit design via dynamic Pauli constraints
Introduces Motte model proving equivalence between Pauli-constraint quantum circuits with tomography and coupling-graph-restricted circuits, yielding BQP universality with O(D² N log N) overhead and robustness to tomography noise.