| Literature DB >> 23489909 |
G Sundell1, M Thuvander, H-O Andrén.
Abstract
Experimental factors that influence adsorption of hydrogen from the residual gas on a nickel-rich alloy during atom probe tomography are investigated. The rate of adsorption has a maximum value at field strengths between 24 and 26 V/nm. It is found that by selecting sufficiently high laser energies, or alternatively high DC fields, it is possible to significantly reduce adsorbed quantities. Some of the physical mechanisms for hydrogen supply to the analyzed area of the tip are discussed, and it is concluded that the dominating supply mechanism is most likely direct adsorption from the gas phase. Low hydrogen adsorption at high fields is attributed to autoionization, and a decline at low fields is explained by reduced field adsorption.Entities:
Keywords: Atom probe; Autoionization; Dipole–dipole interaction; Field adsorption; Hydrogen adsorption; Laser pulsing
Year: 2013 PMID: 23489909 DOI: 10.1016/j.ultramic.2013.01.007
Source DB: PubMed Journal: Ultramicroscopy ISSN: 0304-3991 Impact factor: 2.689