Oliveira, M.
Gonze, Xavier
[UCL]
We present a simple tight-binding model for the bismuth atom and dimer whose main feature is the inclusion of the spin–orbit coupling in such a way that it allows the study of several electronic properties as a function of the spin–orbit coupling strength. Density functional theory calculations (norm-conserving and full-potential linearized augmented plane wave) are used to obtain the tight-binding parameters and to check the accuracy of the model. The model is then used to show in a straightforward way that, in the case of the bismuth dimer, the inclusion of the spin–orbit coupling produces a set of molecular orbitals that are a mixture of bonding and non-bonding non-relativistic molecular orbitals, thus weakening the molecular bond.
Bibliographic reference |
Oliveira, M. ; Gonze, Xavier. Spin–orbit effects in the bismuth atom and dimer: tight-binding and density functional theorycomparison. In: The Journal of Physical Chemistry Part B: Condensed Matter, Materials, Surfaces, Interfaces & Biophysical, Vol. 46, p. 095101 (16 April 2013) |
Permanent URL |
http://hdl.handle.net/2078.1/129184 |