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Trapped Ion Quantum Computing Quantum Chemistry

Excited-State Quantum Chemistry on Qumode-Based Processors via Variational Quantum Deflation

arXiv

Authors: Marlon F. Jost, Sijia S. Dong

Year

2026

Paper ID

48790

Status

Preprint

Abstract Read

~2 min

Abstract Words

209

Citations

N/A

Abstract

Variational quantum algorithms on bosonic quantum processors are an emerging paradigm for quantum chemistry calculations, exploiting the natural alignment between molecular structure and harmonic oscillator-based hardware. We introduce the qumode-based variational quantum deflation framework (QumVQD) for finding both electronic and vibrational excited state energies on qumode-based architectures. For electronic structure, we incorporated particle number conservation constraints via Fock basis Hamming weight filtering. This symmetry enforcement achieves a significant reduction in computational overhead, scaling the Hilbert space dimension as OM choose n_e rather than O\(2^M\) for M spin orbitals and n_e electrons. We validate the approach through electronic structure calculations on H₂, achieving agreement with full configuration interaction (FCI) using the STO-3G basis within chemical accuracy across potential energy surfaces. Extending to vibrational structure, we combine QumVQD with Hamiltonian fragmentation based on Bogoliubov transforms, computing CO₂ and H₂S vibrational eigenstates to spectroscopic accuracy with entangling gate counts 1-2 orders of magnitude lower than analogous qubit-based algorithms. We performed noise characterization using amplitude-damping models and gate-fidelity analysis, which demonstrates enhanced error resilience due to reduced circuit depth compared to qubit-based algorithms. Together, these results highlight the potential of bosonic quantum devices for advancing computational chemistry, particularly in areas where qubit-based devices struggle.

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Variational quantum algorithms on bosonic quantum processors are an emerging paradigm for quantum chemistry calculations, exploiting the natural alignment between molecular...

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References & Citation Signals

[1] DOI https://doi.org/arXiv:2604.13457 [2] arXiv https://arxiv.org/abs/2604.13457 [3] Publisher https://arxiv.org/abs/2604.13457

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