We present a first-principles calculation of the electronic structure and elastic properties of a series of Au/Cr(001) superlattices with modulation wavelengths between 30 and 60. The electronic-structure calculations are performed with the linear muffin-tin-orbital method in the atomic-sphere approximation. Results for the density of states and the charge transfer at the interfaces as a function of the modulation wavelength are presented. The force theorem has been used in the investigation of the elastic behavior of the system. We have performed a detailed analysis of the variation of the band contribution to the shear elastic constant c44, with particular reference to the Fermi-surface contribution. This analysis allows us to investigate the role of the electronic-structure variations induced by layering in the elastic anomalies experimentally observed in metallic superlattices. We show that the origin of the enhancement of the c44 elastic constant observed in Au/Cr at small modulation wavelengths cannot be ascribed to a Fermi-surface Brillouin-zone interaction mechanism. © 1995 The American Physical Society.

Electronic structure and elastic properties of Au/Cr(001) superlattices

NIZZOLI, Fabrizio;
1995

Abstract

We present a first-principles calculation of the electronic structure and elastic properties of a series of Au/Cr(001) superlattices with modulation wavelengths between 30 and 60. The electronic-structure calculations are performed with the linear muffin-tin-orbital method in the atomic-sphere approximation. Results for the density of states and the charge transfer at the interfaces as a function of the modulation wavelength are presented. The force theorem has been used in the investigation of the elastic behavior of the system. We have performed a detailed analysis of the variation of the band contribution to the shear elastic constant c44, with particular reference to the Fermi-surface contribution. This analysis allows us to investigate the role of the electronic-structure variations induced by layering in the elastic anomalies experimentally observed in metallic superlattices. We show that the origin of the enhancement of the c44 elastic constant observed in Au/Cr at small modulation wavelengths cannot be ascribed to a Fermi-surface Brillouin-zone interaction mechanism. © 1995 The American Physical Society.
1995
C., Arcangeli; Nizzoli, Fabrizio; A. I., Liechtenstein
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1206739
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