Scalable Quantum Circuits for Simulating Quantum Field Theories

Martin J Savage; Roland C Farrell; Anthony N Ciavarella; Marc Illa

Scalable Quantum Circuits for Simulating Quantum Field Theories

ORAL

Abstract

In order to approach the continuum and infinite volume limits, quantum simulations of lattice field theories require scalable quantum algorithms that can be efficiently tuned and implemented. I will discuss the hybrid Scalable-Circuit ADAPT-VQE algorithm that has been developed for state preparation in confining lattice gauge theories, and show results obtained using more than 100 qubits of IBM's quantum computers.

March 21, 2025, 3:42 PM – March 21, 2025, 3:54 PM

Publication: "Scalable Circuits for Preparing Ground States on Digital Quantum Computers: The Schwinger Model Vacuum on 100 Qubits", Roland C. Farrell, Marc Illa, Anthony N. Ciavarella, Martin J. Savage. Published in: PRX Quantum 5 (2024) 2, 2 • e-Print: 2308.04481 [quant-ph] "Quantum simulations of hadron dynamics in the Schwinger model using 112 qubits", Roland C. Farrell, Marc Illa, Anthony N. Ciavarella, Martin J. Savage. Published in: Phys.Rev.D 109 (2024) 11, 11 • e-Print: 2401.08044 [quant-ph]

Presenters

Martin J Savage

University of Washington

Authors

Martin J Savage

University of Washington
Roland C Farrell

Caltech
Anthony N Ciavarella

Lawrence Berkeley National Lab
Marc Illa

University of Washington