论文信息 - Evolution of the local environment around Er upon thermal annealing in Er and O co-implanted Si

Evolution of the local environment around Er upon thermal annealing in Er and O co-implanted Si

We present extended x-ray absorption fine structure (EXAFS) analyses of the Er LIII edge in Er-doped (100) Si samples. The samples were prepared by multiple implants of Er and O resulting in the incorporation of 1×1019 Er/cm3 and 1×1020 O/cm3 in a 2.3-μm-thick amorphous layer. It has been found that the local environment around the Er sites, which consists of six Si first neighbors in the amorphous layer, evolves towards a mixed coordination with O and Si atoms after epitaxial regrowth of the layer at 620 °C for 3 h. A further thermal treatment at 900 °C removes the residual Er–Si coordination and produces a full oxygen coordinated first shell with an average of 5 O neighbors. The effects of the different thermal processes on the high resolution spectra of the 1.54 μm Er photoluminescence were also measured and related to the EXAFS results.

[1] J. Donegan,et al. Electron paramagnetic resonance of erbium doped silicon , 1996 .

[2] F. d’Acapito,et al. X-ray Optics of a Dynamical Sagittal-Focusing Monochromator on the GILDA Beamline at the ESRF. , 1996, Journal of synchrotron radiation.

[3] F. Priolo,et al. The effects of oxygen and defects on the deep‐level properties of Er in crystalline Si , 1995 .

[4] Sebania Libertino,et al. The erbium‐impurity interaction and its effects on the 1.54 μm luminescence of Er3+ in crystalline silicon , 1995 .

[5] Polman,et al. Temperature dependence and quenching processes of the intra-4f luminescence of Er in crystalline Si. , 1994, Physical review. B, Condensed matter.

[6] Alberto Carnera,et al. Room‐temperature electroluminescence from Er‐doped crystalline Si , 1994 .

[7] P. H. Citrin,et al. Local structure of 1.54‐μm‐luminescence Er3+ implanted in Si , 1992 .

[8] Jurgen Michel,et al. Impurity enhancement of the 1.54‐μm Er3+ luminescence in silicon , 1991 .

[9] A. Axmann,et al. 1.54‐μm luminescence of erbium‐implanted III‐V semiconductors and silicon , 1983 .