2014
DOI: 10.1016/j.carbon.2013.11.002
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Dynamic microstructural evolution of graphite under displacing irradiation

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Cited by 35 publications
(23 citation statements)
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“…For example, graphitic materials are known to exhibit basal plane contraction under displacing irradiation with the degree of dimensional change being a function of the number of atomic displacements [28], [29]. By using 60 keV xenon ions to create an asymmetric damage profile similar to that shown in Figure 2c, it has recently be demonstrated that it is possible to induce significant strain within a sample due to the differential rates of basal plane contraction [30].…”
Section: Ion Beam Selectionmentioning
confidence: 99%
“…For example, graphitic materials are known to exhibit basal plane contraction under displacing irradiation with the degree of dimensional change being a function of the number of atomic displacements [28], [29]. By using 60 keV xenon ions to create an asymmetric damage profile similar to that shown in Figure 2c, it has recently be demonstrated that it is possible to induce significant strain within a sample due to the differential rates of basal plane contraction [30].…”
Section: Ion Beam Selectionmentioning
confidence: 99%
“…25) This results in mechanical stress within the sample which then buckles creating the kink bands. The atomistic mechanisms behind the dimensional change are discussed below in section 3.2.…”
Section: Xementioning
confidence: 99%
“…It has been reported that the broadening of the Raman G-line in irradiated graphite corresponds with the dislocation population over the scanned volume and results from the strain field around dislocations [41]. In order to quantify the number of preexisting dislocations and those introduced during irradiation based on the broadening of the Raman G-peak, the model of Wu et al (2008) was adopted [39].…”
Section: Raman Mapping Area Spectroscopymentioning
confidence: 99%