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Trapped Ion Quantum Computing
Quantum Simulation
Quantum Chemistry
Quantum-centric computation of molecular excited states with extended sample-based quantum diagonalization
arXiv
Authors: Stefano Barison, Javier Robledo Moreno, Mario Motta
Year
2024
Paper ID
37351
Status
Preprint
Abstract Read
~2 min
Abstract Words
190
Citations
N/A
Abstract
The simulation of molecular electronic structure is an important application of quantum devices. Recently, it has been shown that quantum devices can be effectively combined with classical supercomputing centers in the context of the sample-based quantum diagonalization (SQD) algorithm. This allowed the largest electronic structure quantum simulation to date (77 qubits) and opened near-term devices to practical use cases in chemistry toward the hundred-qubit mark. However, the description of many important physical and chemical properties of those systems, such as photo-absorption/-emission, requires a treatment that goes beyond the ground state alone. In this work, we extend the SQD algorithm to determine low-lying molecular excited states. The extended-SQD method improves over the original SQD method in accuracy, at the cost of an additional computational step. It also improves over quantum subspace expansion based on single and double electronic excitations, a widespread approach to excited states on pre-fault-tolerant quantum devices, in both accuracy and efficiency. We employ the extended SQD method to compute the first singlet S$1$ and triplet T$1$ excited states of the nitrogen molecule with a correlation-consistent basis set, and the ground- and excited-state properties of the [2Fe-2S] cluster.
Why This Paper Matters
- This paper contributes to the Quantum Simulation research area in the Quantum Articles archive.
- It adds a 2024 reference point for readers tracking recent quantum research.
- The simulation of molecular electronic structure is an important application of quantum devices.
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