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Classification of excited-state quantum phase transitions for arbitrary number of degrees of freedom

Publication at Faculty of Mathematics and Physics |
2016

Abstract

Classical stationary points of an analytic Hamiltonian induce singularities of the density of quantum energy levels and their flow with a control parameter in the system's infinite-size limit. We show that for a system with f degrees of freedom, a non-degenerate stationary point with index r causes a discontinuity (for r even) or divergence (r odd) of the (f-1)th derivative of both density and flow of the spectrum.

An increase of flatness for a degenerate stationary point shifts the singularity to lower derivatives. The findings are verified in an f = 3 toy model.