2016
DOI: 10.1016/j.jlumin.2016.05.018
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Analysis of the Tb3+ recombination in ion implanted Al Ga1−N (0≤x≤1) layers

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Cited by 7 publications
(20 citation statements)
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“…Thus, a similar effect may have occurred in the present samples, resulting in the formation of additional optically active defects emitting in the yellow spectral region. Concerning the UV/blue bands, different features were found for the used implantation temperatures, in a similar way to what was previously identified in other Al x Ga 1-x N samples [18,29]. In the case of AlN samples, wide unstructured emission bands are commonly attributed to oxygen-related defects , with maxima in the near-UV (~400 nm; ~3.1 eV), and native defects peaked at the blue spectral region (~480 nm; ~2.58 eV) [30][31][32].…”
Section: Low Temperature Steady-state Plsupporting
confidence: 83%
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“…Thus, a similar effect may have occurred in the present samples, resulting in the formation of additional optically active defects emitting in the yellow spectral region. Concerning the UV/blue bands, different features were found for the used implantation temperatures, in a similar way to what was previously identified in other Al x Ga 1-x N samples [18,29]. In the case of AlN samples, wide unstructured emission bands are commonly attributed to oxygen-related defects , with maxima in the near-UV (~400 nm; ~3.1 eV), and native defects peaked at the blue spectral region (~480 nm; ~2.58 eV) [30][31][32].…”
Section: Low Temperature Steady-state Plsupporting
confidence: 83%
“…As mentioned in the introduction, previous studies in Tb-implanted Al x Ga 1-x N samples [16,17] revealed that the ions tend to preferentially occupy substitutional cation sites (substitutional fraction ~ 63 % and 70 %, for RT and 550 ºC implantation temperatures, respectively), with only small fractions slightly displaced from the regular site or randomly distributed in the matrix. For Tb 3+ ions in such a local environment (C 3v coordination symmetry), the degeneracy of the ion multiplets is broken by the crystalline field of the host and a state with J=6, 5 or 4 is expected to split in a total of nine, seven or six energy levels, respectively [29,33].…”
Section: Low Temperature Steady-state Plmentioning
confidence: 99%
“…Thus, by annealing AlxGa1-xN (x > 0) NWs at 1200 ℃, it is not expected to strongly damage the GaN NW template, as it is protected by the AlxGa1-xN top-section [57]. Similar annealing conditions were reported to successfully achieve the recovery of the lattice damage introduced by the implantation and the optical activation of RE 3+ ions in III-N layers [66,67] and nanostructures [26][27][28].…”
Section: Methodsmentioning
confidence: 74%
“…For Al0.5Ga0.5N-1200, CL and PL spectra show nearly identical luminescence response, while for AlxGa1-xN-1200 (with x = 0.3 and 0.75), these spectra exhibit similar shape with slightly different peaks' resolution and energy, which can be associated with compositional fluctuations in the NWs and different resolution of both techniques. Alloy disorder and/or compositional fluctuations felt by the RE ions also contribute to the increase of the broadening of the 5 D0 → 7 F2 emission [18,51,67]. A tentative representation of the spectral shape evolution with the AlN nominal content is shown in Fig.…”
Section: Above and Below Bandgap Excitation: The 5 D0 → 7 F2 Transitionmentioning
confidence: 99%
“…16,17 In fact, this approach is needed since the optical activity of the implanted RE ions is only achieved by thermal treatments. 18 Additionally, during the implantation the damage can be reduced using implantation angles that allow the channeling of the implanted ions, decreasing the first knock-on collisions or using relatively high temperatures during the process. Several works on GaN showed that the implantation damage can be reduced with channeled implantation geometry [19][20][21][22][23][24] and with high temperature implantation.…”
mentioning
confidence: 99%