Quantitative high resolution transmission electron microscopy: the need for energy filtering and the advantages of energy‐loss imaging
- 2 August 1988
- journal article
- Published by Wiley in Journal of Microscopy
- Vol. 151 (2) , 171-184
- https://doi.org/10.1111/j.1365-2818.1988.tb04623.x
Abstract
SUMMARY: Evidence is presented that inelastically scattered electrons contribute significant detail at the atomic level to high resolution images, particularly in high voltage instruments. The implications for quantitative image interpretation are shown to be serious and a case is made for incorporating facilities for energy‐filtered imaging in future high resolution electron microscopes.Keywords
This publication has 25 references indexed in Scilit:
- The contribution of inelastically scattered electrons to high resolution images of (Al, Ga)As/GaAs heterostructuresUltramicroscopy, 1988
- A computational assessment of a method for mapping localised displacement fields at boundariesUltramicroscopy, 1987
- The measurement of rigid-body displacements using Fresnel-fringe intensity methodsPhilosophical Magazine A, 1986
- High-resolution lattice imaging reveals a ‘phase transition’ in Cu/NiPd multilayersNature, 1986
- The interpretation of HREM images of crystalsUltramicroscopy, 1985
- A method for mapping localized displacement fields in boundariesJournal of Microscopy, 1983
- The relative accuracy of axial and non‐axial methods for the measurement of lattice spacingsJournal of Microscopy, 1983
- The use of moiré techniques to measure rigid body displacementsJournal of Microscopy, 1983
- Inelastic scattering and energy filtering in the transmission electron microscopePhilosophical Magazine, 1976
- The scattering of high energy electrons by the thermal vibrations of crystalsPhilosophical Magazine, 1965