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1 PublicationErbium ion implantation into diamond – measurement and modelling of the crystal structure
Cajzl, J.; Nekvindová, P.; Mackova, A.; Malinský, P.; Sedmidubsky, D.; Hušák, M.; Remeš, Z.; Varga, M.; Kromka, A.; Böttger, R.; Oswald, J.
Abstract
Diamond is proposed as extraordinary material usable for interdisciplinary fields, especially for optics and photonics. In this contribution we focus on the doping of diamond with erbium as optically active centre. In the theoretical part of study based on DFT simulations we have developed two Er-doped diamond structure models with 0 to 4 carbon vacancies in the vicinity of Er atom and performed geometry optimizations with calculation of cohesive energies and defect formation energies. The theoretical results showed an excellent agreement between the calculated and experimental cohesive energy for the parent diamond. The highest values of cohesive energies and lowest values of defect formation energies were obtained for models with erbium in the substitutional carbon position with 1 or 3 vacancies in the vicinity of erbium atom. From the geometry optimization the structure model with 1 vacancy had an octahedral symmetry whereas the model with 3 vacancies had a coordination of 10 forming a trigonal structure with hexagonal ring. In the experimental part, erbium doped diamond crystal samples were prepared by ion implantation of Er+ ions using ion implantation fluences ranging from 1×1014 ions/cm2 to 5×1015 ions/cm2. The experimental results revealed a high degree of diamond structure damage after the ion implantation process reaching up to 69% of disordered atoms in the samples. The prepared Er-doped diamond samples annealed at the temperatures of 400, 600 and 800 °C in vacuum revealed clear luminescence, where the 〈110〉 cut sample was having approximately 6-7 times higher luminescence intensity than 〈001〉 cut sample with the same ion implantation fluence. The reported results are the first demonstration of the Er luminescence in the single crystal diamond structure for the near-infrared spectral region.
Keywords: diamond; erbium; ion implantation; luminescence; DFT
Involved research facilities
- Ion Beam Center DOI: 10.17815/jlsrf-3-159
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DOI: 10.1039/C6CP08851A
Cited 19 times in Scopus
Permalink: https://www.hzdr.de/publications/Publ-25044