by F. Agulló-Rueda, M. D. Ynsa, N. Gordillo, A. Maira, D. Moreno-Cerrada and M. A. Ramos
Abstract:
We have studied the near-surface damage in a diamond crystal caused by irradiation with swift boron ions and its healing after high-temperature annealing. A diamond crystal was irradiated with 9-MeV 11B3+ ions with fluence values between 1×1015 and 4.42×1016ions/cm2 to generate various levels of lattice damage. The ions loose energy to the lattice and, according to simulations, stop at a depth of about 5μm, where they form a thin buried implantation layer. For the near-surface layers damage is produced by the ions at high kinetic energy before they slow down. Only intrinsic defects can be produced, with no boron atoms. The lattice damage of the near-surface layers and its recovery after annealing for 1h at 1000°C were studied by Raman and photoluminescence spectroscopies. Back-scattered light from a 514.5-nm laser beam was collected from the sample surface, probing a depth of a few micrometers. We observe some disordering of the lattice plus the formation of neutral vacancies, interstitial and other lattice defects. After annealing the Raman spectrum shows a significant recovery of the lattice order and the disappearance of isolated neutral vacancies. Residual damage is confirmed by the luminescence spectrum, that shows the appearance of new spectral features.
Reference:
F. Agulló-Rueda, M. D. Ynsa, N. Gordillo, A. Maira, D. Moreno-Cerrada and M. A. Ramos, “Micro-Raman spectroscopy of near-surface damage in diamond irradiated with 9-MeV boron ions”, Diamond and Related Materials, vol. 72, pp. 94–98.
Bibtex Entry:
@article{agullo-rueda_micro-raman_2017, title = {Micro-{Raman} spectroscopy of near-surface damage in diamond irradiated with 9-{MeV} boron ions}, volume = {72}, issn = {0925-9635}, url = {http://www.sciencedirect.com/science/article/pii/S0925963516305751}, doi = {10.1016/j.diamond.2017.01.010}, abstract = {We have studied the near-surface damage in a diamond crystal caused by irradiation with swift boron ions and its healing after high-temperature annealing. A diamond crystal was irradiated with 9-MeV 11B3+ ions with fluence values between 1×1015 and 4.42×1016ions/cm2 to generate various levels of lattice damage. The ions loose energy to the lattice and, according to simulations, stop at a depth of about 5μm, where they form a thin buried implantation layer. For the near-surface layers damage is produced by the ions at high kinetic energy before they slow down. Only intrinsic defects can be produced, with no boron atoms. The lattice damage of the near-surface layers and its recovery after annealing for 1h at 1000°C were studied by Raman and photoluminescence spectroscopies. Back-scattered light from a 514.5-nm laser beam was collected from the sample surface, probing a depth of a few micrometers. We observe some disordering of the lattice plus the formation of neutral vacancies, interstitial and other lattice defects. After annealing the Raman spectrum shows a significant recovery of the lattice order and the disappearance of isolated neutral vacancies. Residual damage is confirmed by the luminescence spectrum, that shows the appearance of new spectral features.}, urldate = {2017-08-01}, journal = {Diamond and Related Materials}, author = {Agulló-Rueda, F. and Ynsa, M. D. and Gordillo, N. and Maira, A. and Moreno-Cerrada, D. and Ramos, M. A.}, month = feb, year = {2017}, keywords = {Defects, Diamond crystal, Ion bombardment, Ion irradiation effects, Phonons, Raman spectroscopy}, pages = {94--98}, file = {ScienceDirect Full Text PDF:E:\cmam_papers\files\736\Agulló-Rueda et al. - 2017 - Micro-Raman spectroscopy of near-surface damage in.pdf:application/pdf;ScienceDirect Full Text PDF:E:\Usuarios\Administrator\Zotero\storage\CAPNVKTW\Agulló-Rueda et al. - 2017 - Micro-Raman spectroscopy of near-surface damage in.pdf:application/pdf;ScienceDirect Snapshot:E:\cmam_papers\files\735\S0925963516305751.html:text/html;ScienceDirect Snapshot:E:\Usuarios\Administrator\Zotero\storage\YUTSTSI5\S0925963516305751.html:text/html}, }