Determining Surface Terminations and Chirality of Noncentrosymmetric FeGe Thin Films via Scanning Tunneling Microscopy.
Joseph P CorbettTiancong ZhuAdam S AhmedSteven J TjungJacob J RepickyTakahiro TakeuchiJonathan Guerrero-SanchezNoboru TakeuchiRoland K KawakamiJay A GuptaPublished in: ACS applied materials & interfaces (2020)
Scanning tunneling microscopy was used to study the surfaces of 20-100 nm thick FeGe films grown by molecular beam epitaxy. An average surface lattice constant of ∼6.8 Å, in agreement with the bulk value, was observed via scanning tunneling microscopy, low energy electron diffraction, and reflection high energy electron diffraction. Each of the four possible chemical terminations in the FeGe films were identified by comparing atomic-resolution images, showing distinct contrast with simulations from density functional theory calculations. A detailed study of the atomic layering order and registry across step edges allows us to uniquely determine the grain orientation and chirality in these noncentrosymmetric films.
Keyphrases
- electron microscopy
- density functional theory
- high resolution
- single molecule
- molecular dynamics
- high speed
- high throughput
- room temperature
- magnetic resonance
- photodynamic therapy
- deep learning
- molecular dynamics simulations
- label free
- computed tomography
- carbon nanotubes
- contrast enhanced
- single cell
- crystal structure