Excitation and deexcitation of Er3+ in crystalline silicon

Excitation and deexcitation of Er3+ in crystalline silicon

Temperature dependent measurements of the 1.54 μm photoluminescence of Er implanted N codoped crystalline Si are made. Upon increasing the temperature from 12 to 150 K, the intensity quenches by more than a factor thousand, while the lifetime quenches from 420 to 3 μs. The quenching processes are de...

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Veröffentlicht in:Applied physics letters 1997-03, Vol.70 (13), p.1721-1723
Hauptverfasser: Kik, P. G., de Dood, M. J. A., Kikoin, K., Polman, A.
Format: Artikel
Sprache:eng
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Zusammenfassung:Temperature dependent measurements of the 1.54 μm photoluminescence of Er implanted N codoped crystalline Si are made. Upon increasing the temperature from 12 to 150 K, the intensity quenches by more than a factor thousand, while the lifetime quenches from 420 to 3 μs. The quenching processes are described by an impurity Auger energy transfer model that includes bound exciton dissociation and a nonradiative energy backtransfer process. Electron and hole trap levels are determined. Direct evidence for a backtransfer process follows from spectral response measurements on an Er-implanted Si solar cell.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.118680