Quantum Complexity and Quantum Simulations of Nuclear Many-Body Systems

Caroline E P Robin; Florian Broekemeier; S. Momme Hengstenberg; James W Keeble; Federico Rocco; Martin J Savage

Quantum Complexity and Quantum Simulations of Nuclear Many-Body Systems

ORAL

Abstract

The development of quantum information has provided new perspectives on quantum many-body problems, and, in turn, is enabling the development of improved methods and algorithms for describing nuclear structure and dynamics on classical and quantum computers.

In this talk I will discuss recent works utilizing notions of quantum information, such as entanglement and non-stabilizerness (magic), to gain insight into the structure of nuclei and to guide the development of more efficient hybrid classical-quantum algorithms for the simulation of nuclear systems.

March 17, 2025, 11:12 AM – March 17, 2025, 11:24 AM

Publication: Quantum Magic and Multi-Partite Entanglement in the Structure of Nuclei, arXiv:2409.12064;<br>The Magic in Nuclear and Hypernuclear Forces, arXiv:2405.10268;<br>Multi-body entanglement and information rearrangement in nuclear many-body systems: a study of the Lipkin-Meshkov-Glick model, EPJA 59, 231 (2023);<br>Quantum simulations in effective model spaces: Hamiltonian-learning variational quantum eigensolver using digital quantum computers and application to the Lipkin-Meshkov-Glick model, PRC 108, 024313 (2023).

Presenters

Caroline E P Robin

Universität Bielefeld

Authors

Caroline E P Robin

Universität Bielefeld
Florian Broekemeier

Universität Bielefeld
S. Momme Hengstenberg

Universität Bielefeld
James W Keeble

Universität Bielefeld
Federico Rocco

Universität Bielefeld
Martin J Savage

University of Washington