Quantum Equation of Motion in Active Spaces for Computing Molecular Excitation Energies in Near-Term Quantum Computing

Phillip W. K. Jensen; Stephan P. A. Sauer; Sonia Coriani; Jakob Kongsted; Karl Michael Ziems; Peter Reinholdt; Erik Rosendahl Kjellgren

Quantum Equation of Motion in Active Spaces for Computing Molecular Excitation Energies in Near-Term Quantum Computing

ORAL

Abstract

Determining the properties of molecules and materials is one of the premier applications of quantum computing. A major question in the field is: how might we use imperfect near-term quantum computers to solve problems of practical value? Inspired by the recently developed variants of the quantum counterpart of equation-of-motion (qEOM) approach and the orbital optimized variational quantum eigensolver (oo-VQE), we present a quantum algorithm for the calculation of molecular excitation energies and excited states using the active space approximation.

^*Novo Nordisk Foundation

March 6, 2024, 12:06 PM – March 6, 2024, 12:18 PM

Presenters

Phillip W. K. Jensen
- University of Copenhagen

Authors

Phillip W. K. Jensen
- University of Copenhagen
Stephan P. A. Sauer
- University of Copenhagen
Sonia Coriani
- Technical University of Denmark
Jakob Kongsted
- University of Southern Denmark
Karl Michael Ziems
- Technical University of Denmark
Peter Reinholdt
- University of Southern Denmark
Erik Rosendahl Kjellgren
- University of Southern Denmark