Margarida Companys Franzke, Alexander Tichai, Kai Hebeler, Achim Schwenk
Published 2021-08-05Version 1
Eigenvector continuation has recently attracted a lot attention in nuclear structure and reactions as a variational resummation tool for many-body expansions. While previous applications focused on ground-state energies, excited states can be accessed on equal footing. This work is dedicated to a detailed understanding of the emergence of excited states from the eigenvector continuation approach. For numerical applications the one-dimensional quartic anharmonic oscillator is investigated, which represents a strongly non-perturbative quantum system where the use of standard perturbation techniques break down. We discuss how different choices for the construction of the EC manifold affect the quality of the EC resummation and investigate in detail the results from EC for excited states compared to results from a full diagonalization as a function of the basis space size.
Comments: 7 pages, 6 figures
Ab-initio description of ground and excited states of a one-dimensional nuclear matter with the Hohenberg--Kohn-theorem-inspired functional-renormalization-group method
Cluster structures of excited states in $^{14}$C
Structure of the ground and excited states in $_Λ^{9}$Be nucleus
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