by A. Rivera, M. L. Crespillo, J. Olivares, R. Sanz, J. Jensen and F. Agulló-López
Abstract:
The non-radiative exciton decay model recently developed to account for swift-ion-beam damage to LiNbO3 is, here, discussed within a general physical perspective, taking previous work on alkali halides as a reference. Some general rules for the validity of excitonic models have been put forward, allowing one to predict the irradiation behaviour of other materials. As a new example of application, some preliminary data on the generation and growth of uniform amorphous layers induced by irradiation with Br at 13MeV and 25MeV have been performed on rutile (TiO2). In addition sub-threshold irradiations with Br ions at 9MeV have been carried out. Defects generation is observed as a result. This effect is explained with the exciton model. Experiments are in the electronic excitation regime and use moderate fluences in the range of 6×1012 to 1.5×1014cm−2. The results show similar features to those found for LiNbO3 and are, in principle, consistent with a non-radiative exciton decay model.
Reference:
A. Rivera, M. L. Crespillo, J. Olivares, R. Sanz, J. Jensen and F. Agulló-López, “On the exciton model for ion-beam damage: The example of TiO2”, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, vol. 268, no. 19, pp. 3122–3126.
Bibtex Entry:
@article{rivera_exciton_2010, series = {Radiation {Effects} in {Insulators}}, title = {On the exciton model for ion-beam damage: {The} example of {TiO2}}, volume = {268}, issn = {0168-583X}, shorttitle = {On the exciton model for ion-beam damage}, url = {http://www.sciencedirect.com/science/article/pii/S0168583X10005033}, doi = {10.1016/j.nimb.2010.05.068}, abstract = {The non-radiative exciton decay model recently developed to account for swift-ion-beam damage to LiNbO3 is, here, discussed within a general physical perspective, taking previous work on alkali halides as a reference. Some general rules for the validity of excitonic models have been put forward, allowing one to predict the irradiation behaviour of other materials. As a new example of application, some preliminary data on the generation and growth of uniform amorphous layers induced by irradiation with Br at 13MeV and 25MeV have been performed on rutile (TiO2). In addition sub-threshold irradiations with Br ions at 9MeV have been carried out. Defects generation is observed as a result. This effect is explained with the exciton model. Experiments are in the electronic excitation regime and use moderate fluences in the range of 6×1012 to 1.5×1014cm−2. The results show similar features to those found for LiNbO3 and are, in principle, consistent with a non-radiative exciton decay model.}, number = {19}, urldate = {2017-08-01}, journal = {Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms}, author = {Rivera, A. and Crespillo, M. L. and Olivares, J. and Sanz, R. and Jensen, J. and Agulló-López, F.}, month = oct, year = {2010}, keywords = {Damage, Excitons, Channelling amorphization threshold, Ion beams, RBS/C, Rutile}, pages = {3122--3126}, file = {ScienceDirect Full Text PDF:E:\cmam_papers\files\717\Rivera et al. - 2010 - On the exciton model for ion-beam damage The exam.pdf:application/pdf;ScienceDirect Full Text PDF:E:\Usuarios\Administrator\Zotero\storage\RL4QQENG\Rivera et al. - 2010 - On the exciton model for ion-beam damage The exam.pdf:application/pdf;ScienceDirect Snapshot:E:\cmam_papers\files\716\S0168583X10005033.html:text/html;ScienceDirect Snapshot:E:\Usuarios\Administrator\Zotero\storage\QN7IMINU\S0168583X10005033.html:text/html}, }