F Mancini, A Avella, The Hubbard model within the equations of motion approach, AP 53, 537 (2004)
R Moreira, Energy Gaps of Polyradicals from an Effective and Transferable Hamiltonian with through-Bond Interactions, JCTC 14, 1 (2017) – doi
M Schuler, M Rosner, T Wehling, A Lichtenstein, M Katsnelson, Optimal Hubbard Models for Materials with Nonlocal Coulomb Interactions: Graphene, Silicene, and Benzene, PRL 111, 036601 (2013) – doi
M Kumar, S Ramasesha, Z Soos, Tuning the bond-order wave phase in the half-filled extended Hubbard model, PRB 79, 035102 (2009)
G Chiappe, E Louis, E SanFabian, J Verges, Hubbard Hamiltonian for the hydrogen molecule, PRB 75, 195104 (2007)
S Ejima, S Nishimoto, Phase diagram of the one-dimensional half-filled extended Hubbard model, PRL 99, 216403 (2007)
J Kurzyk, J Spalek, W Wojcik, Lieb-Wu solution, Gutzwiller-wave-function, and Gutzwiller-ansatz approximations with adjustable single-particle wave function for the Hubbard chain, Acta Physica Polonica A 111, 603 (2007)
H Benthien, F Essler, A Grage, Quantum phase transition in the one-dimensional extended Peierls-Hubbard model, PRB 73, 085105 (2006)
K Tam, S Tsai, D Campbell, Functional renormalization group analysis of the half-filled one-dimensional extended Hubbard model, PRL 96, 036408 (2006)
N Tomita, Quantum coherence and decoherence of correlated electron states in the one-dimensional charge-density-wave-spin-density-wave phase transition, PRB 73, 115105 (2006)
A Sandvik, L Balents, D Campbell, Ground state phases of the half-filled one-dimensional extended Hubbard model, PRL 92, 236401 (2004)
M Nakamura, Tricritical behavior in the extended Hubbard chains, PRB 61, 16377 (2000)
R T Clay, A W Sandvik, D K Campbell, Possible exotic phases in the one-dimensional extended Hubbard model, PRB 59, 4665 (1999)
N Tomita, A Ikawa, H Fukutome, The SDW-CDW phase transition and quantum fluctuations in the one dimensional extended Hubbard model, Synthetic Metals 69, 679 (1995)
P van Dongen, The extended Hubbard model at large interaction, in The Hubbard model: its physics and mathematical physics, ed Baeriswyl D et al, p 185 (Springer, 1995) – google
J Cannon, R Scalettar, E Fradkin, Ground-state phase diagram of the one-dimensional extended Hubbard model, PRB 44, 5995 (1991) – 2e
H Hayashi, K Nasu, Effect of electron correlation on the ground state, the singlet-exciton states, and the triplet-exciton states of trans-polyacetylene, PRB 32, 5295 (1985)
J Hubbard, Electron correlations in narrow energy bands. VI. The connexion with many-body perturbation theory, Proc R Soc A 296, 100 (1967)
J Hubbard, Electron correlations in narrow energy bands. V. A perturbation expansion about the atomic limit, Proc R Soc A 296, 82 (1967)
J Hubbard, Electron correlations in narrow energy bands. IV. The atomic representation, Proc R Soc A 285, 542 (1965)
J Hubbard, Electron correlations in narrow energy bands. III. An improved solution, Proc R Soc A 281, 401 (1964) – first use of CPA
J Hubbard, Electron correlations in narrow energy bands. II. The degenerate band case, Proc R Soc A 277, 237 (1964)
J Hubbard, Electron correlations in narrow energy bands, Proc R Soc A 276, 238 (1963)