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Pauli propagation enables fast classical simulation of strongly correlated quantum systems

2 Pith papers cite this work. Polarity classification is still indexing.

2 Pith papers citing it
abstract

Ground state energy estimation for strongly correlated quantum systems remains a central challenge in computational physics and chemistry. While tensor network methods like DMRG provide efficient solutions for one-dimensional systems, higher-dimensional problems remain difficult. Here we present a variational double bracket flow (vDBF) algorithm that leverages Pauli Propagation, a technique originally developed for classical simulation of quantum circuits, to efficiently approximate ground state energies. By combining greedy operator selection with coefficient-based fluctuation truncation and energy-variance extrapolation, we obtain results with sub-1% relative accuracy compared to DMRG benchmarks for the Heisenberg and Hubbard models in one and two dimensions. For a 10x10 Heisenberg lattice (100 qubits), vDBF obtains accurate results in approximately 1 minute on a single CPU thread, compared to over 50 hours on 64 threads for DMRG. For the 8x8 half-filled Hubbard model, corresponding to 128 qubits, vDBF reaches the 1% error regime in less than one hour, while our DMRG calculations required more than 10 hours on 64 threads. We further test vDBF on the 84-qubit {\pi}-valence active space of hexabenzocoronene, where the tighter-threshold calculations achieve sub-1% agreement with DMRG. These results demonstrate that classical simulation techniques developed in the context of quantum advantage benchmarking can provide practical tools for many-body physics.

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quant-ph 2

years

2026 2

verdicts

UNVERDICTED 2

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representative citing papers

Augmenting Imaginary-Time Evolution with Local Geometric Information

quant-ph · 2026-06-22 · unverdicted · novelty 7.0

AITE augments ITE with local geometric information from energy distribution skewness and higher moments, yielding superlinear convergence followed by exact finite-time error extinction, recovering standard ITE at zero skewness.

Exponentially many initializations to avoid barren plateaus

quant-ph · 2026-06-16 · unverdicted · novelty 7.0

A first-moment operator diagnostic reveals exponentially many inequivalent initialization distributions avoid barren plateaus in variational quantum algorithms, with numerics indicating distinct attained minima.

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Showing 2 of 2 citing papers after filters.

  • Augmenting Imaginary-Time Evolution with Local Geometric Information quant-ph · 2026-06-22 · unverdicted · none · ref 37 · internal anchor

    AITE augments ITE with local geometric information from energy distribution skewness and higher moments, yielding superlinear convergence followed by exact finite-time error extinction, recovering standard ITE at zero skewness.

  • Exponentially many initializations to avoid barren plateaus quant-ph · 2026-06-16 · unverdicted · none · ref 107 · internal anchor

    A first-moment operator diagnostic reveals exponentially many inequivalent initialization distributions avoid barren plateaus in variational quantum algorithms, with numerics indicating distinct attained minima.