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Simulation of a Diels-Alder Reaction on a Quantum Computer

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arxiv 2403.08107 v1 pith:NN5WJFAV submitted 2024-03-12 quant-ph physics.chem-phphysics.comp-ph

Simulation of a Diels-Alder Reaction on a Quantum Computer

classification quant-ph physics.chem-phphysics.comp-ph
keywords quantumhardwarereactionactivationalgorithmschemicalreactionsbarriers
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The simulation of chemical reactions is an anticipated application of quantum computers. Using a Diels-Alder reaction as a test case, in this study we explore the potential applications of quantum algorithms and hardware in investigating chemical reactions. Our specific goal is to calculate the activation barrier of a reaction between ethylene and cyclopentadiene forming a transition state. To achieve this goal, we use quantum algorithms for near-term quantum hardware (entanglement forging and quantum subspace expansion) and classical post-processing (many-body perturbation theory) in concert. We conduct simulations on IBM quantum hardware using up to 8 qubits, and compute accurate activation barriers in the reaction between cyclopentadiene and ethylene by accounting for both static and dynamic electronic correlation. This work illustrates a hybrid quantum-classical computational workflow to study chemical reactions on near-term quantum devices, showcasing the potential of quantum algorithms and hardware in accurately calculating activation barriers.

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Cited by 2 Pith papers

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  1. A Quantum Multi-Programming Framework to Maximize Quantum Resources for the LUCJ Ansatz

    quant-ph 2026-05 unverdicted novelty 6.0

    A tailored quantum multi-programming workflow for the LUCJ ansatz enables parallel circuit execution with SQD/ext-SQD post-processing that mitigates cross-talk, yielding ethanol energies within 0.001 kcal/mol of class...

  2. I-QMapper: Error-Aware Layout Optimization and Device Diagnostics for NISQ Hardware

    quant-ph 2026-06 unverdicted novelty 5.0

    I-QMapper is a Jupyter-based interactive tool that combines qubit layout construction with real-time and historical calibration analytics for error-aware mapping on superconducting NISQ devices.