English

Small atoms fall into bulk from non-close-packed surfaces?

Materials Science 2022-09-22 v1

Abstract

Surface rippling has been observed when atoms of XX and AA are mixed on the AA substrate surface. The rippling amplitude has been estimated using hard sphere models. We present a gedanken experiment predicting a penetration of small atoms into bulk through the (100) surface. To understand how the electronic effects alter this picture, we investigate the surface rippling of X/A(100)X/A(100) from first-principles, assuming X=X= H to Bi except for noble gases and A=A= Cu, Ag, and Au. We show that the small atoms (such as H, C, N, O and F) attract electrons from the substrate due to the large electronegativity, which prevent them from passing through the void in the (100) surface. The behaviors of small atoms are further explored by studying lateral displacements of the top layer in the AA substrate and a formation of the XX dimer above, below, and across the top layer. The present work provides an example to understand when atoms are not hard spheres.

Keywords

Cite

@article{arxiv.2209.10025,
  title  = {Small atoms fall into bulk from non-close-packed surfaces?},
  author = {Shota Ono and Honoka Satomi and Junji Yuhara},
  journal= {arXiv preprint arXiv:2209.10025},
  year   = {2022}
}

Comments

7 pages, 6 figures

R2 v1 2026-06-28T01:46:42.119Z