Add to ORKGAtomic resolution scanning tunneling microscopy (STM) images of InSb(100) prepared by in situ treatment of several cycles of low energy argon ion bombardment and annealing have been obtained. The STM images demonstrate how the structural quality of the surface improves dramatically with repeated bombardment and annealing cycles. After annealing to 625 K, atomically flat terraces were obtained over areas in excess of 1000 angstrom X 1000 angstrom and low energy electron diffraction (LEED) studies at room temperature revealed a sharp, stable c(8 X 2) pattern. Atomic resolution images indicate (4 X 1) unit cells in which occupied lone pair orbitals of Sb atoms in the second layer are imaged. The data obtained is consistent with the structural ...
The (3 × 3) reconstruction of the InSb( ) surface has been analysed using grazing incidence X-ray di...
The (3 × 3) reconstruction of the InSb( ) surface has been analysed using grazing incidence X-ray di...
A study of the removal of the native oxide from InSb(001) substrates using X-ray diffraction and Aug...
Scanning tunnelling microscopy (STM) has been used to produce images of InSb(100) prepared by in sit...
In this letter we present evidence from scanning tunneling microscopy studies in support of a recent...
The indium-rich InSb(001) surface, that shows the c(8×2) reconstruction at room temperature and a pa...
The atomic structures of the c(8x2) and c(4x4) reconstructions of InSb(001) have been determined usi...
The atomic structures of the c(8x2) and c(4x4) reconstructions of InSb(001) have been determined usi...
The growth of thin films of Au on InSb(100) has been studied by low energy electron diffraction (LEE...
By means of scanning tunneling microscopy/spectroscopy (STM/STS), photoelectron spectroscopy, and fi...
By means of scanning tunneling microscopy/spectroscopy (STM/STS), photoelectron spectroscopy, and fi...
A combination of surface-sensitive techniques and electron transport measurements have been used to ...
We study the properties of the InSb (001) surface covered with ultrathin KBr films, with a thickness...
The (3×3) reconstruction of the InSb(1̄1̄1̄) surface has been investigated by g...
Defects in crystal structure of layered material can modify the surface states. Ion bombardment is a...
The (3 × 3) reconstruction of the InSb( ) surface has been analysed using grazing incidence X-ray di...
The (3 × 3) reconstruction of the InSb( ) surface has been analysed using grazing incidence X-ray di...
A study of the removal of the native oxide from InSb(001) substrates using X-ray diffraction and Aug...
Scanning tunnelling microscopy (STM) has been used to produce images of InSb(100) prepared by in sit...
In this letter we present evidence from scanning tunneling microscopy studies in support of a recent...
The indium-rich InSb(001) surface, that shows the c(8×2) reconstruction at room temperature and a pa...
The atomic structures of the c(8x2) and c(4x4) reconstructions of InSb(001) have been determined usi...
The atomic structures of the c(8x2) and c(4x4) reconstructions of InSb(001) have been determined usi...
The growth of thin films of Au on InSb(100) has been studied by low energy electron diffraction (LEE...
By means of scanning tunneling microscopy/spectroscopy (STM/STS), photoelectron spectroscopy, and fi...
By means of scanning tunneling microscopy/spectroscopy (STM/STS), photoelectron spectroscopy, and fi...
A combination of surface-sensitive techniques and electron transport measurements have been used to ...
We study the properties of the InSb (001) surface covered with ultrathin KBr films, with a thickness...
The (3×3) reconstruction of the InSb(1̄1̄1̄) surface has been investigated by g...
Defects in crystal structure of layered material can modify the surface states. Ion bombardment is a...
The (3 × 3) reconstruction of the InSb( ) surface has been analysed using grazing incidence X-ray di...
The (3 × 3) reconstruction of the InSb( ) surface has been analysed using grazing incidence X-ray di...
A study of the removal of the native oxide from InSb(001) substrates using X-ray diffraction and Aug...