First-principles study of electronic structure, phonons and electron-phonon interaction in hexagonal PdTe

The electronic structure, phonons and electron-phonon interaction of hexagonal PdTe have been investigated in detail by employing a plane wave pseudopotential method and a linear-response scheme within Local Density Approximation (LDA) and Generalized Gradient Approximation (GGA). Consistent with available theoretical and experimental results, it has been found that the intermediate strength electron-phonon coupling constant (lambda) with the calculated value of 0.542 on the LDA and 0.648 on the GGA is due to the coupling of phonons from Pd and Te atoms and electrons from Pd-d and Te-p states. Through comparison, the calculations on the GGA produce better quality than that on the LDA. On the basis of appropriate Coulomb pseudopotential (mu*) and lambda of 0.648 together with experimental Debye temperature (Theta), via the McMillan formula, the superconducting transition temperature with the value of 4.5 K is obtained, same to the experimental value. The results indicate that conventional electron-phonon coupling mechanism can explain the superconductivity in this compound. (C) 2015 Elsevier B.V. All rights reserved.