English

Sequency Hierarchy Truncation (SeqHT) for Adiabatic State Preparation and Time Evolution in Quantum Simulations

Quantum Physics 2025-10-01 v2 High Energy Physics - Lattice Nuclear Theory

Abstract

We introduce the Sequency Hierarchy Truncation (SeqHT) scheme for reducing the resources required for state preparation and time evolution in quantum simulations, based upon a truncation in sequency. For the λϕ4\lambda\phi^4 interaction in scalar field theory, or any interaction with a polynomial expansion, upper bounds on the contributions of operators of a given sequency are derived. For the systems we have examined, observables computed in sequency-truncated wavefunctions, including quantum correlations as measured by magic, are found to step-wise converge to their exact values with increasing cutoff sequency. The utility of SeqHT is demonstrated in the adiabatic state preparation of the λϕ4\lambda\phi^4 anharmonic oscillator ground state using IBM's quantum computer ibm_sherbrooke{\textit ibm\_sherbrooke}. Using SeqHT, the depth of the required quantum circuits is reduced by 30%\sim 30\%, leading to significantly improved determinations of observables in the quantum simulations. More generally, SeqHT is expected to lead to a reduction in required resources for quantum simulations of systems with a hierarchy of length scales.

Keywords

Cite

@article{arxiv.2407.13835,
  title  = {Sequency Hierarchy Truncation (SeqHT) for Adiabatic State Preparation and Time Evolution in Quantum Simulations},
  author = {Zhiyao Li and Dorota M. Grabowska and Martin J. Savage},
  journal= {arXiv preprint arXiv:2407.13835},
  year   = {2025}
}

Comments

19 pages main text, 16 pages appendices, 17 figures, 12 tables

R2 v1 2026-06-28T17:46:33.242Z