Demonstrates combined entanglement forging and sample-based quantum diagonalization on superconducting hardware to calculate energies for hydrogen abstraction in 2,2-diphenyldipropane across active spaces up to 39 electrons and 39 orbitals.
Schulz, Accelerated testing: Nature and artificial weathering in the coatings industry, vincentz network gmbh & co, KG, Hannover, Germany (2009)
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Quantum-centric simulation of hydrogen abstraction by sample-based quantum diagonalization and entanglement forging
Demonstrates combined entanglement forging and sample-based quantum diagonalization on superconducting hardware to calculate energies for hydrogen abstraction in 2,2-diphenyldipropane across active spaces up to 39 electrons and 39 orbitals.