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arxiv 2603.03496 v2 pith:4C3EEMND submitted 2026-03-03 quant-ph

Observation of Improved Accuracy over Classical Sparse Ground-State Solvers using a Quantum Computer

classification quant-ph
keywords quantumclassicalgroundalgorithmdiagonalizationhamiltonianoutperformproblem
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Demonstrating quantum advantage over classical algorithms for ground state energy problems is an outstanding open problem in quantum computation. We experimentally demonstrate that a quantum algorithm can outperform classical selected configuration interaction (SCI) methods, a key family of techniques used in computational chemistry and condensed matter physics. We construct a class of local Hamiltonian problems with sparse ground states, and show that SCI fails to find the ground state of a 49-qubit instance. We then show that sample-based Krylov quantum diagonalization, run on an IBM Heron R3 processor, succeeds at the same task. While the problem is solvable classically using iterative solvers designed to target our Hamiltonian construction, this work resolves the question of whether a sample-based quantum diagonalization algorithm can outperform standard SCI heuristics.

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