Add to ORKGThe recently reported effect of luminescence quenching by a mid-infrared (MIR) pulse from a free-electron laser was investigated in various Si:Er materials. No quenching was observed in Si:Er samples whose photoluminescence spectra were dominated by the so-called 'cubic' centers. Furthermore, in addition to the low-symmetry Er-related spectra, the MIR-induced quenching was found to take place also for a broad emission band centered around 1.4 mum, and usually assigned to implantation damage. The band-edge excitonic emission remained unaffected by the MIR radiation. (C) 2001 Elsevier Science B.V. All rights reserved
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
The possibility to control the room temperature Er3+ photoluminescence efficiency in silica is inves...
The intra-4f transition close to 1.54 mu m of Er implanted into Si shows rich fine structure due to ...
The recently reported effect of luminescence quenching by a mid-infrared (MIR) pulse from a free-ele...
We investigate the influence of infrared illumination using a free-electron laser on the photolumine...
The influence of intense infrared (IR) radiation in the range 7-17 μm on the photoluminescence (PL) ...
Two-color optical spectroscopy is used to directly manipulate shallow levels available in Si:Er samp...
One of the open questions in semiconductor physics is the origin of the small splittings of the exci...
We present experimental evidence on the donor level related to optical properties of the Er3+ ion in...
We present experimental evidence on the donor level related to optical properties of the Er3+ ion in...
8 págs.; 7 figs.The luminescence quenching of Er in crystalline Si at temperatures between 77 and 30...
Influence of oxygen on optical activity and thermal stability of the 1.5 mu m emission of Er3+ ions ...
We have observed a set of broad luminescence bands between 1.07 and 0.85 eV, in He-implanted Si anne...
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
In Er-doped silicon we have found direct evidence for the formation of the Er-related intermediate s...
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
The possibility to control the room temperature Er3+ photoluminescence efficiency in silica is inves...
The intra-4f transition close to 1.54 mu m of Er implanted into Si shows rich fine structure due to ...
The recently reported effect of luminescence quenching by a mid-infrared (MIR) pulse from a free-ele...
We investigate the influence of infrared illumination using a free-electron laser on the photolumine...
The influence of intense infrared (IR) radiation in the range 7-17 μm on the photoluminescence (PL) ...
Two-color optical spectroscopy is used to directly manipulate shallow levels available in Si:Er samp...
One of the open questions in semiconductor physics is the origin of the small splittings of the exci...
We present experimental evidence on the donor level related to optical properties of the Er3+ ion in...
We present experimental evidence on the donor level related to optical properties of the Er3+ ion in...
8 págs.; 7 figs.The luminescence quenching of Er in crystalline Si at temperatures between 77 and 30...
Influence of oxygen on optical activity and thermal stability of the 1.5 mu m emission of Er3+ ions ...
We have observed a set of broad luminescence bands between 1.07 and 0.85 eV, in He-implanted Si anne...
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
In Er-doped silicon we have found direct evidence for the formation of the Er-related intermediate s...
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
The possibility to control the room temperature Er3+ photoluminescence efficiency in silica is inves...
The intra-4f transition close to 1.54 mu m of Er implanted into Si shows rich fine structure due to ...