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Chemically Aware Unitary Coupled Cluster with ab initio Calculations on System Model H1: A Refrigerant Chemicals Application
arXiv
Authors: I. T. Khan, M. Tudorovskaya, J. J. M. Kirsopp, D. Muñoz Ramo, P. W. Warrier, D. K. Papanastasiou, R. Singh
Year
2022
Paper ID
57999
Status
Preprint
Abstract Read
~2 min
Abstract Words
156
Citations
N/A
Abstract
Circuit depth reduction is of critical importance for quantum chemistry simulations on current and near term quantum computers. This issue is tackled by introducing a chemically aware strategy for the Unitary Coupled Cluster ansatz. The objective is to use the chemical description of a system to aid in the synthesis of a quantum circuit. We combine this approach with two flavours of Symmetry Verification for the reduction of experimental noise. These method enable the use of System Model H1 for a 6-qubit QSE (Quantum Subspace Expansion). We present (i) calculations to obtain CH4 optical spectra; (ii) an atmospheric gas reaction simulation involving \[CHcdot3--H--OHcdot\]ddagger. Using our chemically aware UCC state-preparation strategy in tandem with state of the art symmetry verification methods, we improve device yield for CH4 at 6-qubits. This is demonstrated by a 90% improvement in two-qubit gate count and reduction in relative error to 0.2% for electronic energy calculated on System Model H1.
Why This Paper Matters
- This paper contributes to the Quantum Simulation research area in the Quantum Articles archive.
- It adds a 2022 reference point for readers tracking recent quantum research.
- Circuit depth reduction is of critical importance for quantum chemistry simulations on current and near term quantum computers.
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