Professor Fabian Essler

Quantum disentangled liquid in the half-filled Hubbard model

PHYSICAL REVIEW B 96:19 (2017) ARTN 195153

Authors:

T Veness, FHL Essler, MPA Fisher

Atypical energy eigenstates in the Hubbard chain and quantum disentangled liquids

(2017)

Authors:

Thomas Veness, Fabian HL Essler, Matthew PA Fisher

Finite temperature dynamics of the Mott insulating Hubbard chain

(2017)

Authors:

Alberto Nocera, Fabian HL Essler, Adrian E Feiguin

Full counting statistics in the spin-1/2 Heisenberg XXZ chain

JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL 50:41 (2017) ARTN 414002

Authors:

M Collura, FHL Essler, S Groha

Critical behavior of the extended Hubbard model with bond dimerization

Physica B: Condensed Matter Elsevier 536 (2017) 474-478

Authors:

S Ejima, F Lange, Fabian HL Essler, H Fehske

Abstract:

Exploiting the matrix-product-state based density-matrix renormalization group (DMRG) technique we study the one-dimensional extended (U-V) Hubbard model with explicit bond dimerization in the half-filled band sector. In particular we investigate the nature of the quantum phase transition, taking place with growing ratio V/U between the symmetry-protected-topological and charge-density-wave insulating states. The (weak-coupling) critical line of continuous Ising transitions with central charge c=1/2 terminates at a tricritical point belonging to the universality class of the dilute Ising model with c=7/10. We demonstrate that our DMRG data perfectly match with (tricritical) Ising exponents, e.g., for the order parameter β=1/8 (1/24) and correlation length ν=1 (5/9). Beyond the tricritical Ising point, in the strong-coupling regime, the quantum phase transition becomes first order.