Exact Quadratic Effective Hamiltonian for the Hubbard Model and its Exact Solutions
POSTER
Abstract
Applying the recently developed self-consistent effective Hamiltonian theory (SCEHT) to the Hubbard model, we derive the exact quadratic effective Hamiltonian for the Hubbard model. The exact solutions of the effective Hamiltonian is presented. We showed that for the Hubbard model, when no-double occupancy constraint on the b-fermions are satisfied exactly, the corresponding eigenstates, the vacuum state in particular, will be the exact eigenstates of the Hubbard model. Anti-ferromagnetic phase at zero dopping and chiral superconductivity with doping are confirmed in the Hubbard model.
Publication: 1. Self-Consistent Effective Hamiltonian Theory for Fermionic Many Body Systems, Xindong Wang and Hai-Ping Cheng, Submitted, https://arxiv.org/abs/1910.12136<br>2. Mathematical Theory of Locally Coherent Quantum Many-Body Fermionic System, Xindong Wang, https://arxiv.org/abs/2003.12480<br>3. Phase Transitions in Bi-Layer Graphene, Xindong Wang, Hai-Ping Cheng, in preparation<br>
Presenters
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Xindong Wang
Sophyics Technology, LLC, Sophyics Technology LLC
Authors
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Xindong Wang
Sophyics Technology, LLC, Sophyics Technology LLC
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Xiao Chen
University of Florida
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Liqin Ke
Ames Laboratory, USA, Ames Laboratory, US DOE
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Hai-Ping Cheng
University of Florida, UFL
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Bruce Harmon
Iowa State University