Variational quantum eigensolvers (VQEs) are successful algorithms for studying physical systems on quantum computers. Recently, they were extended to the measurement-based model of quantum computing, bringing resource graph states and their advantages into the realm of quantum simulation. In this work, we incorporate such ideas into traditional VQE circuits. This enables novel problem-informed designs and versatile implementations of many-body Hamiltonians. We showcase our approach on real superconducting quantum computers by performing VQE simulations of testbed systems including the perturbed planar code, Z2 lattice gauge theory, 1D quantum chromodynamics, and the LiH molecule.
@article{arxiv.2305.19200,
title = {Measurement-based infused circuits for variational quantum eigensolvers},
author = {Albie Chan and Zheng Shi and Luca Dellantonio and Wolfgang Dür and Christine A. Muschik},
journal= {arXiv preprint arXiv:2305.19200},
year = {2024}
}