Surface energy of the one-dimensional supersymmetric $t-J$ model with general integrable boundary terms in the antiferromagnetic sector

@inproceedings{Sun2021SurfaceEO,
  title={Surface energy of the one-dimensional supersymmetric \$t-J\$ model with general integrable boundary terms in the antiferromagnetic sector},
  author={Pei Sun and Yang Chen and Tao Yang and Junpeng Cao and Wen-Li Yang},
  year={2021}
}
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We investigate the thermodynamics of the one-dimensional $t\ensuremath{-}J$ model using transfer matrix renormalization group algorithms and present results for quantities like particle number,

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A new model describing strongly correlated electrons on a general {ital d}-dimensional lattice is presented, an extended Hubbard model that contains the {ital t}-{ital J} model as a special case and it is exactly solvable by Bethe ansatz.

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It is suggested that a superconducting state is easily stabilized if t-J segments creating local spin-singlet pairing are coupled to each other--another example is the ladder system.

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The exact solution of the one-dimensional super-symmetric t–J model under generic integrable boundary conditions is obtained via the Bethe ansatz methods. With the coordinate Bethe ansatz, the

The supersymmetric t - J model with a boundary

An open supersymmetric t - J chain with boundary fields is studied by means of the Bethe ansatz. Ground state properties for the case of an almost half-filled band and a bulk magnetic field are