G. Ghislotti scite author profile

We report the observation of visible-light emission at room temperature from high fluence (0.3–3×1017 cm−2) Si+ implanted thermal SiO2 layers grown on silicon substrates. Significant blue-light emission and an intense broad luminescent band with a peak beyond 750 nm are observed after annealing at high temperature (T≥1000 °C). The red-light emission, present only in the highest fluence implant, is attributed to the luminescence emitted from silicon nanocrystals produced by silicon precipitation. The presence of silicon nanocrystals is confirmed by transmission electron microscopy. Significant blue-light emission is visible after thermal annealing in the 1×1017 cm−2 fluence implant. The peak position shifts from 490 to 540 nm by increasing the annealing cycles temperature.

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Surface Brillouin Scattering—Extending Surface Wave Measurements to 20 GHz

Mutti

Bottani

Ghislotti

et al. 1995

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Nanosecond time-resolved emission spectroscopy from silicon implanted and annealed SiO2 layers

Pifferi

Taroni

Torricelli

et al. 1997

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Effect of different preparation conditions on light emission from silicon implanted SiO2 layers

Ghislotti

Nielsen

Asoka‐Kumar

et al. 1996

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Visible light emission from Si ϩ implanted SiO 2 layers as a function of different annealing conditions ͑temperature, time and ambient͒ is studied. It is shown that a 560 nm band, present in as implanted samples, increases its intensity for increasing annealing temperatures and is still observed after annealing at 1000°C. The emission time is fast ͑0.5-2 ns͒. A second band centered at 780 nm is detected after annealing at 1000°C. The intensity of the 780 nm band further increases when hydrogen annealing was performed. The emission time is long ͑1s-0.3 ms͒. Based on the annealing behavior and on the emission times, the origin of the two bands is discussed.

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Brillouin scattering of porous silicon

et al. 1997

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G. Ghislotti

Room-temperature visible luminescence from silicon nanocrystals in silicon implanted SiO2 layers

Surface Brillouin Scattering—Extending Surface Wave Measurements to 20 GHz

Nanosecond time-resolved emission spectroscopy from silicon implanted and annealed SiO2 layers

Effect of different preparation conditions on light emission from silicon implanted SiO2 layers

Brillouin scattering of porous silicon

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