Chin. Phys. Lett.  2002, Vol. 19 Issue (2): 262-265    DOI:
Original Articles |
Exact Solution of an Extended Hubbard Model with Electron-Lattice Interaction for an Organic Ferromagnetic Polymer
WANG Wei-Zhong;YAO Kai-Lun
Department of Physics, Huazhong University of Science and Technology, Wuhan 430074
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WANG Wei-Zhong, YAO Kai-Lun 2002 Chin. Phys. Lett. 19 262-265
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Abstract Using an exact diagonalization method, we study an extended Hubbard model with an electron-lattice interaction for an organic ferromagnetic chain with radical coupling. The result shows that the ferromagnetic ground state originates from the antiferromagnetic correlation between adjoining sites, which is enhanced by the on-site e-e repulsion. The intersite e-e repulsion induces the imhomogeneous distribution of the charge density. The dimerization is decreased by the e-e interaction and the radical coupling. The electron-lattice interaction and the radical coupling can transfer the spin density and charge density between the main chain and the radicals.
Keywords: 71.45.Lr      75.10.Lp      75.30.Fv     
Published: 01 February 2002
PACS:  71.45.Lr (Charge-density-wave systems)  
  75.10.Lp (Band and itinerant models)  
  75.30.Fv (Spin-density waves)  
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YAO Kai-Lun
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