The 1 .5µm fluorescence shape and lifetime of Er3+-activated tellurite glasses have been investigated. The measures on bulk system have been compared with those obtained on powders, showing that the self-absorption effect broadens the emission spectrum and lengthens the lifetime. It has been demonstrated that the bandwidth and lifetime measurements depend on the absorption coefficient á(ë) and on the distance d between the focused exciting laser beam and the exit face of a bulk glass sample. The actual emission spectrum has been reconstructed from the á(ë)·d knowledge. Lifetime lengthening cannot be determined from á(ë)·d and, to obtain actual lifetime for highly Er3+-doped glasses, measurements on powders are required.
Self-absorption and radiation trapping in Er3+-doped TeO2-based glasses
A Chiasera;M Ferrari;
2005
Abstract
The 1 .5µm fluorescence shape and lifetime of Er3+-activated tellurite glasses have been investigated. The measures on bulk system have been compared with those obtained on powders, showing that the self-absorption effect broadens the emission spectrum and lengthens the lifetime. It has been demonstrated that the bandwidth and lifetime measurements depend on the absorption coefficient á(ë) and on the distance d between the focused exciting laser beam and the exit face of a bulk glass sample. The actual emission spectrum has been reconstructed from the á(ë)·d knowledge. Lifetime lengthening cannot be determined from á(ë)·d and, to obtain actual lifetime for highly Er3+-doped glasses, measurements on powders are required.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
