Calculation of phonon-phonon interactions and two-phonon bound states on the Si(111):H surface

26 October 1992

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 69 (17) , 2543-2546
https://doi.org/10.1103/physrevlett.69.2543

Abstract

The Si(111):H surface is studied within the framework of density-functional theory using the local-density approximation. In particular, the Si-H stretch mode is investigated in detail. The phonon-phonon interaction strength is found to be 2Γ=-76.6

{cm}^{- 1}

and the phonon bandwidth to be 7.2

{cm}^{- 1}

. Two-phonon bound states are found to exist with a binding energy of 86.4

{cm}^{- 1}

, in excellent agreement with the recent experimental result of 90

{cm}^{- 1}

Keywords

This publication has 31 references indexed in Scilit:

Hydrogen-induced dereconstruction of Si(111)2×1 from first-principles molecular dynamics
Physical Review Letters, 1992
Ideal hydrogen termination of the Si (111) surface
Applied Physics Letters, 1990
Hydrogenation of semiconductor surfaces: Si and Ge (111)
Physical Review B, 1988
Surface phonon calculation for Si(111): H(1×1)
Physica Scripta, 1988
Microscopic model for a ferroelectric glass
Physical Review B, 1977
Realistic tight-binding model for chemisorption: H on Si and Ge (111)
Physical Review B, 1976
Anisotropic photoemission and chemisorption-bond geometry on Ge(111) and Si(111) surfaces
Surface Science, 1975
Si(111): Si $H_{3}$ —A Simple New Surface Phase
Physical Review Letters, 1975
Self-Consistent Quantum Theory of Chemisorption: H on Si(111)
Physical Review Letters, 1975
Hydrogen adsorption and surface structures of silicon
Surface Science, 1974