Electron spectroscopy of surfaces by de-excitation of metastable noble gas atoms
- 28 May 1986
- journal article
- Published by The Royal Society in Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences
- Vol. 318 (1541) , 51-58
- https://doi.org/10.1098/rsta.1986.0059
Abstract
Electronically excited, metastable noble gas atoms A* (for example H e*21S, excitation energy E* — 20.6 eV) with thermal kinetic energy are very efficiently quenched upon collision with a surface S, i.e. A* + S -> A + S+ + e~. De-excitation proceeds through two competing mechanisms: (i) Auger de-excitation (equivalent to Penning ionization), or (ii) resonance ionization followed by Auger neutralization. The energy distribution of the emitted electrons is governed by the overlap between the wavefunctions of the target and the unoccupied (ground-state) level of the impinging atoms. As a consequence, this technique is extremely sensitive to the density of valence electronic states of the outermost atomic layer. Results for clean and adsorbate-covered surfaces are presented in comparison with data recorded by ultraviolet photoelectron spectroscopy, to demonstrate the capabilities of this method.Keywords
This publication has 6 references indexed in Scilit:
- Electron spectroscopy of surfaces by impact of metastable He atoms: CO on Pd(110)Surface Science, 1982
- Scattering of metastable rare gas atoms from solid surfacesSurface Science, 1982
- Structural studies of surfaces with atomic and molecular beam diffractionPublished by Springer Nature ,1982
- Study of oxygen and carbon monoxide adsorption on molybdenum (110) by metastable helium de-excitation spectroscopySurface Science, 1980
- Excited-Atom Deexcitation Spectroscopy using Incident IonsPhysical Review Letters, 1979
- Penning-Ionization Electron Spectroscopy of Chemisorbed COPhysical Review Letters, 1979