Hamiltonian Decoded Quantum Interferometry for General Pauli Hamiltonians
Abstract
In this work, we study the Hamiltonian Decoded Quantum Interferometry (HDQI) for the general Hamiltonians on an -qubit system, where the coefficients and are Pauli operators. We show that, given access to an appropriate decoding oracle, there exist efficient quantum algorithms for preparing the state , where denotes the matrix function induced by a univariate polynomial . Such states can be used to approximate the Gibbs states of for suitable choices of polynomials. We further demonstrate that the proposed algorithms are robust to imperfections in the decoding procedure. Our results substantially extend the scope of HDQI beyond stabilizer-like Hamiltonians, providing a method for Gibbs-state preparation and Hamiltonian optimization in a broad class of physically and computationally relevant quantum systems.
Cite
@article{arxiv.2601.18773,
title = {Hamiltonian Decoded Quantum Interferometry for General Pauli Hamiltonians},
author = {Kaifeng Bu and Weichen Gu and Xiang Li},
journal= {arXiv preprint arXiv:2601.18773},
year = {2026}
}
Comments
28 pages