Nearly-optimal simulation of quantum field theory

ORAL

Abstract

I will present recent results on state preparation and time evolution in quantum field theories, based on utilizing quantum simulation algorithms with nearly-optimal scaling in problem parameters. I will also discuss ways to overcome the major bottleneck of such methods — the efficient implementation of block encoding — with the aid of the recently developed Quantum Eigenvalue Transformation for Unitary Matrices.

*This work was supported by DOE Office of Advanced Scientific Computing Research (ASCR) through the ARQC program (NG). Support is also acknowledged from the U.S. Department of Energy, Office of Science, National Quantum Information Science Research Centers, Quantum Systems Accelerator. Additional support is acknowledged from the DOE-HEP contract KA2401032/34.

Publication: Nearly-optimal state preparation for quantum simulations of lattice gauge theories
Nearly-optimal simulation of time evolution in quantum field theory

Presenters

  • Michael Kreshchuk

    • Lawrence Berkeley National Laboratory

Authors

  • Michael Kreshchuk

    • Lawrence Berkeley National Laboratory

  • Christian W Bauer

    • Lawrence Berkeley National Laboratory

  • Christopher F Kane

    • University of Arizona

  • Neel Modi

    • University of California, Berkeley

  • Siddharth Hariprakash

    • University of California, Berkeley

  • Niladri Gomes

    • Lawrence Berkeley National Laboratory