Caroline Bonafos scite author profile

Growth regimes during homoepitaxial growth of GaN by ammonia molecular beam epitaxy J. Appl. Phys. 112, 054903 (2012) Defect microstructural evolution in ion irradiated metallic nanofoils: Kinetic Monte Carlo simulation versus cluster dynamics modeling and in situ transmission electron microscopy experiments Appl. Phys. Lett. 101, 101905 (2012) Anisotropic lattice relaxation in non-c-plane InGaN/GaN multiple quantum wells J. Appl. Phys. 112, 033513 (2012) Analysis of doping induced wafer bow during GaN:Si growth on sapphire End-of-range ͑EOR͒ defects are interstitial type dislocation loops which nucleate just beneath the crystalline/amorphous ͑c/a͒ interface formed by ion implantation in Si, after the preamorphization of the substrate, and during the ramping-up of the anneal. They originate from the presence of a high supersaturation of ''excess'' Si self-interstitial atoms located just beneath the c/a interface. Upon annealing, the mean radius of the defects increases while their density decreases through the exchange of Si self-interstitial atoms between the loops. The number of interstitials stored in the loops stays constant. For sufficiently high thermal budgets, when the nucleation is finished, and when the local equilibrium between extended and point defects is established, the coarsening of the EOR defects can be modeled through the Ostwald ripening theory applied to the dislocation loops geometry. Indeed, and as expected from the theory, the square of the mean radius of the loop population increases with time while the loop density decreases proportional to 1/t. Furthermore, the theoretical function describing the size distributions perfectly matches the time evolution of the experimental stack histograms, for different annealing temperatures. During the asymptotic steady-state coarsening regime, the activation energy for the loop coarsening is 4.4 eV, which is in the range of values given in the literature for self-diffusion in Si. Nevertheless, an activation energy of about 1-2 eV is found during the transient period preceding the local equilibrium, i.e., in the range of the migration energy of self-interstitials. The limiting phenomenon for the loop growth appears to be diffusion, since it is the hypothesis that leads to the best fit between theory and experiment. An estimate of D i C i * has been derived from the growth laws of the EOR defects. A value of about 1.8ϫ10 7 cm Ϫ1 s Ϫ1 at 1000°C is obtained and compares well with the values given in the literature.

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Stress measurements of germanium nanocrystals embedded in silicon oxide

Wellner

Paillard

Bonafos

et al. 2003

102

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Ge nanocrystals embedded in thermal SiO2 on top of a Si substrate are investigated using Raman spectroscopy and transmission electron microscopy. We observe that the Raman peak frequency of the Ge nanocrystals is strongly affected by compressive stress. In the case of large particles for which the phonon confinement-induced Raman shift can be neglected, the stress is measured taking into account isotopic composition effects induced by the ion implantation process used to produce the nanocrystals. The stress is proposed to originate from a liquid–solid phase transition in Ge.

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Caroline Bonafos

Extended defects in shallow implants

Ostwald ripening of end-of-range defects in silicon

Stress measurements of germanium nanocrystals embedded in silicon oxide

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