We investigate the influence of infrared illumination using a free-electron laser on the photoluminescence of erbium-implanted silicon material. In addition to the earlier reported quenching of the Er-related photoluminescence due to dissociation of the intermediate excitation stage, two more features of the energy transfer mechanism are revealed. In the wavelength dependence of the quenching effect a local extreme is detected for a beam energy of approximately 100 meV. A possible origin of this effect is discussed. Further, the current experiment revealed the presence of non-radiative recombination centers which could transfer their energy to Er ions under the influence of the infrared beam. The centers were found to be characterized by ex...
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
The several processes required to achieve Er luminescence in Si are investigated. In particular, the...
The results of high resolution photoluminescence studies of erbium implanted silicon are presented. ...
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...
Exciton-mediated energy transfer model in Er-doped silicon was presented. The emission intensity is ...
In Er-doped silicon we have found direct evidence for the formation of the Er-related intermediate s...
The recently reported effect of luminescence quenching by a mid-infrared (MIR) pulse from a free-ele...
This paper reports a study of the non-radiative processes competing with the excitation of the erbiu...
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...
It is known that emission from Er ions implanted into a silicon wafer can be excited by illumination...
The mechanisms of photo and electroluminescence from Er-implanted crystalline Si have been investiga...
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
The several processes required to achieve Er luminescence in Si are investigated. In particular, the...
The results of high resolution photoluminescence studies of erbium implanted silicon are presented. ...
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...
Exciton-mediated energy transfer model in Er-doped silicon was presented. The emission intensity is ...
In Er-doped silicon we have found direct evidence for the formation of the Er-related intermediate s...
The recently reported effect of luminescence quenching by a mid-infrared (MIR) pulse from a free-ele...
This paper reports a study of the non-radiative processes competing with the excitation of the erbiu...
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...
It is known that emission from Er ions implanted into a silicon wafer can be excited by illumination...
The mechanisms of photo and electroluminescence from Er-implanted crystalline Si have been investiga...
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
We demonstrate that excitation of Er3+ ions embedded in crystalline silicon is effectively quenched ...
The several processes required to achieve Er luminescence in Si are investigated. In particular, the...
The results of high resolution photoluminescence studies of erbium implanted silicon are presented. ...
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