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Elastic recoil detection
Elastic Recoil Detection is a nuclear technique in materials science to obtain elemental concentration depth profiles in thin films. An energetic ion beam is directed at the sample to be depth profiled and (as in Rutherford backscattering) there is an elastic nuclear interaction with the atoms of the sample. The incident energetic ions typically have MeV of energy, enough to kick out (recoil) the atoms being struck. The technique depends on putting in an appropriate detector to detect these recoiled atoms.
Additional recommended knowledge
The great advantage in ERD is that all the atoms of the sample can be recoiled if a heavy incident beam is used, so a complete analysis of the sample is immediately available. For example, a 200MeV Au beam can be used with a gas ionisation detector. With the right recoil angle the scattered incident beam is kinematically prohibited, and therefore does not enter the detector. Alternatively, a 35 MeV Cl (or 50MeV I) beam is often used with a time-of-flight detector: this is good for light elements (or transition metals) in silicon.
ERD is also often done using a relatively low energy (2MeV) 4He beam specifically to depth profile hydrogen. In this technique multiple detectors are used, at backscattering angles to detect heavier elements by RBS and a forward (recoil) detector to simultaneously detect the recoiled hydrogen. The recoil detector has to have a "range foil": a thin film (typically 6 micrometres of Mylar) to preferentially stop the incident He beam scattered into the forward direction.
Synonyms and acronyms
ERD = Elastic Recoil Detection
ERDA = Elastic Recoil Detection Analysis
FRS = Forward Recoil Scattering
HFS = Hydrogen Forward Scattering
|This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Elastic_recoil_detection". A list of authors is available in Wikipedia.|